AIM:To analyze the differences and relevance of Yes-associated protein (YAP) and survivin, and to explore the correlation and signifi cance of their expression in gastric carcinoma and precancerous lesions.METHODS: Th...AIM:To analyze the differences and relevance of Yes-associated protein (YAP) and survivin, and to explore the correlation and signifi cance of their expression in gastric carcinoma and precancerous lesions.METHODS: The PV9000 immunohistochemical method was used to detect the expression of YAP and survivin in 98 cases of normal gastric mucosa, 58 intestinal metaplasia (IM), 32 dysplasia and 98 gastric carcinoma.RESULTS: The positive rates of YAP in dysplasia (37.5%) and gastric carcinoma (48.0%) were significantly higher than that in normal gastric mucosa (13.3%), P<0.01. The positive rates of survivin in IM (53.4%), dysplasia (59.4%) and gastric carcinoma (65.3%) were significantly higher than in normal gastric mucosa (11.2%), P<0.01. Survivin expression gradually increased from 41.7% in well differentiated adenocarcinoma through 58.3% in moderately differentiated adenocarcinoma to 75.6% in poorly differentiated adenocarcinoma, with significant Rank correlation, rk=0.279, P<0.01. The positive rate of survivin in gastric carcinoma of diffused type (74.6%) was significantly higher than that in intestinal type (51.3%), P<0.05. In gastric carcinoma with lymph node metastasis (76.9%), the positive rate of survivin was signifi cantly higher than that in the group without lymph node metastasis (41.2%), P<0.01. In 98 cases of gastric carcinoma, the expression of YAP and of survivin were positively correlated, rk=0.246, P<0.01.CONCLUSION: YAP may play an important role as a carcinogenic factor and may induce survivin expression. Detecting both markers together may help in early diagnosis of gastric carcinoma.展开更多
BACKGROUND Long non-coding RNAs (lncRNAs) play important roles in many diseases, including hepatocellular carcinoma (HCC). Autophagy is a metabolic pathway that facilitates cancer cell survival in response to stress. ...BACKGROUND Long non-coding RNAs (lncRNAs) play important roles in many diseases, including hepatocellular carcinoma (HCC). Autophagy is a metabolic pathway that facilitates cancer cell survival in response to stress. The relationship between autophagy and the lncRNA-activated by transforming growth factor beta (lncRNA-ATB) in HCC remains unknown. AIM To explore the influence of lncRNA-ATB in regulating autophagy in HCC cells and the underlying mechanism. METHODS In the present study, we evaluated lncRNA-ATB expression in tumor and adjacent non-tumor tissues from 72 HCC cases by real-time PCR. We evaluated the role of lncRNA-ATB in the proliferation and clonogenicity of HCC cells in vitro. The effect of lncRNA-ATB on autophagy was determined using a LC3-GFP reporter and transmission electron microscopy. Furthermore, the mechanism by which lncRNA-ATB regulates autophagy was explored by immunofluorescence staining, RNA immunoprecipitation (RIP), and Western blot. RESULTS The expression of lncRNA-ATB was higher in HCC tissues than in normal liver tissues, and lncRNA-ATB expression was positively correlated with tumor size, TNM stage, and poorer survival of patients with HCC. Moreover, ectopic overexpression of lncRNA-ATB promoted cell proliferation and clonogenicnity of HCC cells in vitro. LncRNA-ATB promoted autophagy by activating Yesassociated protein (YAP). Moreover, lncRNA-ATB interacted with autophagy-related protein 5 (ATG5) mRNA and increased ATG5 expression. CONCLUSION LncRNA-ATB regulates autophagy by activating YAP and increasing ATG5 expression. Our data demonstrate a novel function for lncRNA-ATB in autophagy and suggest that lncRNA-ATB plays an important role in HCC.展开更多
Objective:Arsenic trioxide(ATO or As2O3)has beneficial effects on suppressing neointimal hyperplasia and restenosis,but the mechanism is still unclear.The goal of this study is to further understand the mechanism of A...Objective:Arsenic trioxide(ATO or As2O3)has beneficial effects on suppressing neointimal hyperplasia and restenosis,but the mechanism is still unclear.The goal of this study is to further understand the mechanism of ATO's inhibitory effect on vascular smooth muscle cells(VSMCs).Methods and results:Through in vitro cell culture and in vivo stent implanting into the carotid arteries of rabbit,a synthetic-to-contractile phenotypic transition was induced and the proliferation of VSMCs was inhibited by ATO.F-actin filaments were clustered and the elasticity modulus was increased within the phenotypic modulation of VSMCs induced by ATO in vitro.Meanwhile,Yes-associated protein(YAP)nuclear translocation was inhibited by ATO both in vivo and in vitro.It was found that ROCK inhibitor or YAP inactivator could partially mask the phenotype modulation of ATO on VSMCs.Conclusions:The interaction of YAP with the ROCK pathway through ATO seems to mediate the contractile phenotype of VSMCs.This provides an indication of the clinical therapeutic mechanism for the beneficial bioactive effect of ATO-drug eluting stent(AES)on in-stent restenosis(ISR).展开更多
Hydrogels are three-dimensional platforms that serve as substitutes for native extracellular matrix.These materials are starting to play important roles in regenerative medicine because of their similarities to native...Hydrogels are three-dimensional platforms that serve as substitutes for native extracellular matrix.These materials are starting to play important roles in regenerative medicine because of their similarities to native matrix in water content and flexibility.It would be very advantagoues for researchers to be able to regulate cell behavior and fate with specific hydrogels that have tunable mechanical properties as biophysical cues.Recent developments in dynamic chemistry have yielded designs of adaptable hydrogels that mimic dynamic nature of extracellular matrix.The current review provides a comprehensive overview for adaptable hydrogel in regenerative medicine as follows.First,we outline strategies to design adaptable hydrogel network with reversible linkages according to previous findings in supramolecular chemistry and dynamic covalent chemistry.Next,we describe the mechanism of dynamic mechanical microenvironment influence cell behaviors and fate,including how stress relaxation influences on cell behavior and how mechanosignals regulate matrix remodeling.Finally,we highlight techniques such as bioprinting which utilize adaptable hydrogel in regenerative medicine.We conclude by discussing the limitations and challenges for adaptable hydrogel,and we present perspectives for future studies.展开更多
Ferroptosis is a novel form of iron-dependent cell death characterized by lipid per-oxidation.While the importance and disease relevance of ferroptosis is gaining recognition,much remains unknown about various genetic...Ferroptosis is a novel form of iron-dependent cell death characterized by lipid per-oxidation.While the importance and disease relevance of ferroptosis is gaining recognition,much remains unknown about various genetic and non-genetic determinants of ferroptosis.Hippo signaling pathway is an evolutionarily conserved pathway that responds to various envi-ronmental cues and controls organ size,cell proliferation,death,and self-renewal capacity.In cancer biology,Hippo pathway is a potent tumor suppressing mechanism and its dysregulation contributes to apoptosis evasion,cancer development,metastasis,and treatment resistance.Hippo dysregulation leads to aberrant activation of YAP and TAZ,the two major transcription co-activators of TEADs,that induce the expression of genes triggering tumor-promoting pheno-types,including enhanced cell proliferation,self-renewal and apoptosis inhibition.The Hippo pathway is regulated by the cell-cell contact and cellular density/confluence.Recently,fer-roptosis has also been found being regulated by the cellular contact and density.The YAP/TAZ activation under low density,while confers apoptosis resistance,renders cancer cells sensitivity to ferroptosis.These findings establish YAP/TAZ and Hippo pathways as novel deter-minants of ferroptosis.Therefore,inducing ferroptosis may have therapeutic potential for YAP/TAZ-activated chemo-resistant and metastatic tumor cells.Reciprocally,various YAP/TAZ-targeting treatments under clinical development may confer ferroptosis resistance,limiting the therapeutic efficacy.展开更多
Objective:To investigate the effects of Pien Tze Huang(PZH) on the migration and invasion of HCC cells and underlying molecular mechanism.Methods:Cell counting kit-8(CCK-8) was applied to evaluate the cell viabilities...Objective:To investigate the effects of Pien Tze Huang(PZH) on the migration and invasion of HCC cells and underlying molecular mechanism.Methods:Cell counting kit-8(CCK-8) was applied to evaluate the cell viabilities of SMMC-7721,SK-Hep-1,C3A and HL-7702(6 × 10^(3)cells/well) co-incubated with different concentrations of PZH(0,0.2,0.4,0.6,0.8 mg/mL) for 24 h.Transwell,wound healing assay,CCK-8and Annexin V-FITC/PI staining were conducted to investigate the effects of PZH on the migration,invasion,proliferation and apoptosis of SK-Hep-1 and SMMC-7721 cells(650 μg/mL for SK-Hep-1 cells and 330 μg/mL for SMMC-7721 cells),respectively.In vivo,lung metastasis mouse model constructed by tail vein injection of HCC cells was used for evaluating the anti-metastasis function of PZH.SK-Hep-1 cells(10^(6)cells/200 μL per mice) were injected into B-NDG mice via tail vein.Totally 8 mice were randomly divided into PZH and control groups,4 mice in each group.After 2-d inoculation,mice in the PZH group were administered with PZH(250 mg/kg,daily) and mice in the control group received only vehicle(PBS) from the 2nd day after xenograft to day 17.Transcriptome analysis based on RNA-seq was subsequently used for deciphering anti-tumor mechanism of PZH.Quantitative real-time polymerase chain reaction(qRT-PCR) and Western blot were applied to verify RNA-seq results.Luciferase reporter assay was performed to examine the transcriptional activity of yes-associated protein(YAP).Results:PZH treatment significantly inhibited the migration,invasion,proliferation and promoted the apoptosis of HCC cells in vitro and in vivo(P<0.01).Transcriptome analysis indicated that Hippo signaling pathway was associated with anti-metastasis function of PZH.Mechanical study showed PZH significantly inhibited the expressions of platelet derived growth factor receptor beta(PDGFRB),YAP,connective tissue growth factor(CCN2),N-cadherin,vimentin and matrix metallopeptidase 2(MMP2,P<0.01).Meanwhile,the phosphorylation of YAP was also enhanced by PZH treatment 展开更多
The control of organ size growth is one of the most fundamental aspects of life.In the past two decades,a highly conserved Hippo signaling pathway has been identified as a key molecular mechanism for governing organ s...The control of organ size growth is one of the most fundamental aspects of life.In the past two decades,a highly conserved Hippo signaling pathway has been identified as a key molecular mechanism for governing organ size regulation.In the middle of this pathway is a kinase cascade that negatively regulates the downstream component Yes-associated protein(YAP)/transcriptional coactivator with PDZ-binding motif(TAZ)/Yorkie through phosphorylation.Phosphorylation of YAP/TAZ/Yorkie promotes its cytoplasmic localization,leads to cell apoptosis and restricts organ size overgrowth.When the Hippo pathway is inactivated,YAP/TAZ/Yorkie translocates into the nucleus to bind to the transcription enhancer factor(TEAD/TEF)family of transcriptional factors to promote cell growth and proliferation.In this review,we will focus on the structural and functional studies on the downstream transcription factor TEAD and its coactivator YAP.展开更多
Skeletal muscles are essential for locomotion,posture,and metabolic regulation.To understand physiological processes,exercise adaptation,and muscle-related disorders,it is critical to understand the molecular pathways...Skeletal muscles are essential for locomotion,posture,and metabolic regulation.To understand physiological processes,exercise adaptation,and muscle-related disorders,it is critical to understand the molecular pathways that underlie skeletal muscle function.The process of muscle contra ction,orchestrated by a complex interplay of molecular events,is at the core of skeletal muscle function.Muscle contraction is initiated by an action potential and neuromuscular transmission requiring a neuromuscular junction.Within muscle fibers,calcium ions play a critical role in mediating the interaction between actin and myosin filaments that generate force.Regulation of calcium release from the sarcoplasmic reticulum plays a key role in excitation-contraction coupling.The development and growth of skeletal muscle are regulated by a network of molecular pathways collectively known as myogenesis.Myogenic regulators coordinate the diffe rentiation of myoblasts into mature muscle fibers.Signaling pathways regulate muscle protein synthesis and hypertrophy in response to mechanical stimuli and nutrient availability.Seve ral muscle-related diseases,including congenital myasthenic disorders,sarcopenia,muscular dystrophies,and metabolic myopathies,are underpinned by dys regulated molecular pathways in skeletal muscle.Therapeutic interventions aimed at preserving muscle mass and function,enhancing regeneration,and improving metabolic health hold promise by targeting specific molecular pathways.Other molecular signaling pathways in skeletal muscle include the canonical Wnt signaling pathway,a critical regulator of myogenesis,muscle regeneration,and metabolic function,and the Hippo signaling pathway.In recent years,more details have been uncovered about the role of these two pathways during myogenesis and in developing and adult skeletal muscle fibers,and at the neuromuscular junction.In fact,research in the last few years now suggests that these two signaling pathways are interconnected and that they jointly control physiological and pat展开更多
Background Oral squamous cell carcinoma (OSCC) is one of the most common malignancies in the oral and maxillofacial region. Yes-associated protein 1 (YAP1) has been implicated as a bona fide oncogene in solid tumo...Background Oral squamous cell carcinoma (OSCC) is one of the most common malignancies in the oral and maxillofacial region. Yes-associated protein 1 (YAP1) has been implicated as a bona fide oncogene in solid tumors. We seek to elucidate the role of YAP1 in OSCC tissue. Methods We identified YAP1 gene and protein overexpression in 30 OSCC patients and 10 normal oral mucosa tissues by immunohistochemistry, Western blotting and reverse transcription polymerase chain reaction (RT-PCR). Results In the normal oral mucosa by immunohistochemical staining, YAP1 mainly located in both the cytoplasm and nucleus mainly the nuclei of the basal cells. In OSCC, the expression of YAP1 translocated from the nucleus to cytoplasm YAP1 being mainly located in both the cytoplasm and nucleus of the adjacent mucosa. The expression of YAP1 gradual increased in normal oral mucosa, tumor adjacent mucosa and low grade, middle grade, high grade OSCC tissue by Western blotting. Significant difference was found between the expressions of the normal oral mucosa and OSCC tissue (P 〈0.05). The coincidence was detected between the normal oral mucosa and OSCC tissue by RT-PCR (P 〈0.05). Conclusions YAP1 is involved in the carcinogenesis and development of OSCC. There is a transformation between nucleus and cytoplasm.展开更多
Breast cancer is a molecularly heterogeneous disease and the most common female malignancy.In recent years,therapy approaches have evolved to accommodate molecular diversity,with a focus on more biologically based the...Breast cancer is a molecularly heterogeneous disease and the most common female malignancy.In recent years,therapy approaches have evolved to accommodate molecular diversity,with a focus on more biologically based therapies to minimize negative consequences.To regulate cell fate in human breast cells,the Hippo signaling pathway has been associated with the alpha subtype of estrogen receptors.This pathway regulates tissue size,regeneration,and healing,as well as the survival of tissue-specific stem cells,proliferation,and apoptosis in a variety of organs,allowing for cell differentiation.Hippo signaling is mediated by the kinases MST1,MST2,LATS1,and LATS2,as well as the adaptor proteins SAV1 and MOB.These kinases phosphorylate the downstream effectors of the Hippo pathway,yes-associated protein(YAP),and transcriptional coactivator with PDZ-binding motif(TAZ),suppressing the expression of their downstream target genes.The Hippo signaling pathway kinase cascade plays a significant role in all cancers.Understanding the principles of this kinase cascade would prevent the occurrence of breast cancer.In recent years,small noncoding RNAs,or microRNAs,have been implicated in the development of several malignancies,including breast cancer.The interconnections between miRNAs and Hippo signaling pathway core proteins in the breast,on the other hand,remain poorly understood.In this review,we focused on highlighting the Hippo signaling system,its key parts,its importance in breast cancer,and its regulation by miRNAs and other related pathways.展开更多
Hyperplasia and migration of fibroblast-like synoviocytes(FLSs)are the key drivers in the pathogenesis of rheumatoid arthritis(RA)and joint destruction.Abundant Yes-associated protein(YAP),which is a powerful transcri...Hyperplasia and migration of fibroblast-like synoviocytes(FLSs)are the key drivers in the pathogenesis of rheumatoid arthritis(RA)and joint destruction.Abundant Yes-associated protein(YAP),which is a powerful transcription co-activator for proliferative genes,was observed in the nucleus of inflammatory FLSs with unknown upstream mechanisms.Using Gene Expression Omnibus database analysis,it was found that Salvador homolog-1(SAV1),the pivotal negative regulator of the Hippo-YAP pathway,was slightly downregulated in RA synovium.However,SAV1 protein expression is extremely reduced.Subsequently,it was revealed that SAV1 is phosphorylated,ubiquitinated,and degraded by interacting with an important serine-threonine kinase,G protein-coupled receptor(GPCR)kinase 2(GRK2),which was predominately upregulated by GPCR activation induced by ligands such as prostaglandin E2(PGE2)in RA.This process further contributes to the decreased phosphorylation,nuclear translocation,and transcriptional potency of YAP,and leads to aberrant FLSs proliferation.Genetic depletion of GRK2 or inhibition of GRK2 by paroxetine rescued SAV1 expression and restored YAP phosphorylation and finally inhibited RA FLSs proliferation and migration.Similarly,paroxetine treatment effectively reduced the abnormal proliferation of FLSs in a rat model of collagen-induced arthritis which was accompanied by a significant improvement in clinical manifestations.Collectively,these results elucidate the significance of GRK2 regulation of Hippo-YAP signaling in FLSs proliferation and migration and the potential application of GRK2 inhibition in the treatment of FLSs-driven joint destruction in RA.展开更多
BACKGROUND Human periodontal ligament stem cells(PDLSCs)regenerate oral tissue.In vitro expansion causes replicative senescence in stem cells.This causes intracellular reactive oxygen species(ROS)accumulation,which ca...BACKGROUND Human periodontal ligament stem cells(PDLSCs)regenerate oral tissue.In vitro expansion causes replicative senescence in stem cells.This causes intracellular reactive oxygen species(ROS)accumulation,which can impair stem cell function.Tissue engineering efficiency is reduced by exogenous ROS stimulation,which causes premature senescence under oxidative stress.Melatonin(MT),a powerful free radical scavenger,can delay PDLSCs senescence but may not maintain stemness under oxidative stress.This experiment examined the effects of hydrogen peroxide-induced oxidative stress on PDLSCs’apoptosis,senescence,and stemness.AIM To determine if MT can reverse the above effects along with the underlying molecular mechanisms involved.METHODS PDLSCs were isolated from human premolars and cultured in different conditions.Flow cytometry was used to characterize the cell surface markers of BACKGROUND Human periodontal ligament stem cells(PDLSCs)regenerate oral tissue.In vitro expansion causes replicative senescence in stem cells.This causes intracellular reactive oxygen species(ROS)accumulation,which can impair stem cell function.Tissue engineering efficiency is reduced by exogenous ROS stimulation,which causes premature senescence under oxidative stress.Melatonin(MT),a powerful free radical scavenger,can delay PDLSCs senescence but may not maintain stemness under oxidative stress.This experiment examined the effects of hydrogen peroxide-induced oxidative stress on PDLSCs’apoptosis,senescence,and stemness.AIM To determine if MT can reverse the above effects along with the underlying molecular mechanisms involved.METHODS PDLSCs were isolated from human premolars and cultured in different conditions.Flow cytometry was used to characterize the cell surface markers of differentiation,ROS,and senescence-associatedβ-galactosidase activity were assessed by various assays.Reverse transcription-polymerase chain reaction and western blot were used to measure the expression of genes and proteins related to stemness and senescence展开更多
Pancreatic ductal adenocarcinoma(PDAC) remains a deadly disease with no efficacious treatment options. PDAC incidence is projected to increase, which may be caused at least partially by the obesity epidemic. Significa...Pancreatic ductal adenocarcinoma(PDAC) remains a deadly disease with no efficacious treatment options. PDAC incidence is projected to increase, which may be caused at least partially by the obesity epidemic. Significantly enhanced efforts to prevent or intercept this cancer are clearly warranted. Oncogenic KRAS mutations are recognized initiating events in PDAC development, however, they are not entirely sufficient for the development of fully invasive PDAC.Additional genetic alterations and/or environmental, nutritional, and metabolic signals, as present in obesity, type-2 diabetes mellitus, and inflammation, are required for full PDAC formation. We hypothesize that oncogenic KRAS increases the intensity and duration of the growth-promoting signaling network.Recent exciting studies from different laboratories indicate that the activity of the transcriptional co-activators Yes-associated protein(YAP) and WW-domaincontaining transcriptional co-activator with PDZ-binding motif(TAZ) play a critical role in the promotion and maintenance of PDAC operating as key downstream target of KRAS signaling. While initially thought to be primarily an effector of the tumor-suppressive Hippo pathway, more recent studies revealed that YAP/TAZ subcellular localization and co-transcriptional activity is regulated by multiple upstream signals. Overall, YAP has emerged as a central node of transcriptional convergence in growth-promoting signaling in PDAC cells. Indeed, YAP expression is an independent unfavorable prognostic marker for overall survival of PDAC. In what follows, we will review studies implicating YAP/TAZ in pancreatic cancer development and consider different approaches to target these transcriptional regulators.展开更多
Background and Aims:Hepatic ischemia-reperfusion injury(HIRI)is a prevalent complication of liver transplantation,partial hepatectomy,and severe infection,necessitating the development of more effective clinical strat...Background and Aims:Hepatic ischemia-reperfusion injury(HIRI)is a prevalent complication of liver transplantation,partial hepatectomy,and severe infection,necessitating the development of more effective clinical strategies.Receptor activity–modifying protein 1(RAMP1),a member of the G protein–coupled receptor adapter family,has been implicated in numerous physiological and pathological processes.The study aimed to investigate the pathogenesis of RAMP1 in HIRI.Methods:We established a 70%liver ischemia-reperfusion model in RAMP1 knockout(KO)and wild-type mice.Liver and blood samples were collected after 0,6,and 24 h of hypoxia/reperfusion.Liver histological and serological analyses were performed to evaluate liver damage.We also conducted in-vitro and in-vivo experiments to explore the molecular mechanism underlying RAMP1 function.Results:Liver injury was exacerbated in RAMP1-KO mice compared with the sham group,as evidenced by increased cell death and elevated serum transaminase and inflammation levels.HIRI was promoted in RAMP1-KO mice via the induction of hepatocyte apoptosis and inhibition of proliferation.The absence of RAMP1 led to increased activation of the extracellular signal–regulated kinase(ERK)/mitogen-activated protein kinase(MAPK)pathway and yes-associated protein(YAP)phosphorylation,ultimately promoting apoptosis.SCH772984,an ERK/MAPK phosphorylation inhibitor,and PY-60,a YAP phosphorylation inhibitor,reduced apoptosis in in-vitro and in-vivo experiments.Conclusions:Our findings suggest that RAMP1 protects against HIRI by inhibiting ERK and YAP phosphorylation signal transduction,highlighting its potential as a therapeutic target for HIRI and providing a new avenue for intervention.展开更多
Oxidative stress and apoptosis are the key factors that limit the hypothermic preservation time of donor hearts to within 4–6 h.The aim of this study was to investigate whether the histone deacetylase 3(HDAC3)inhibit...Oxidative stress and apoptosis are the key factors that limit the hypothermic preservation time of donor hearts to within 4–6 h.The aim of this study was to investigate whether the histone deacetylase 3(HDAC3)inhibitor RmGodFyPn9 a6 m6 i cc opualrda mpreotteercst daugrianing srt ecpaerrdfiuasci oinn juwreyr ei nedvuacleuda tebyd.pTrholeo nexgperde shsyipoont haenrdm pich opsrpehsoerryvlaattiioonn.leRvaet lsh eoaf rtms awmemrea lihayn-??STE20-like kinase-1(Mst1)and Yes-associated protein(YAP)were determined by western blotting.Cell apoptosis was measured by the terminal deoxynucleotidyl-transferase(TdT)-mediated dUTP nick-end labeling(TUNEL)method.Addition of RGFP966 in Celsior solution significantly inhibited cardiac dysfunction induced by hypothermic preservation.RGFP966 inhibited the hypothermic preservation-induced increase of the phosphorylated(p)-Mst1/Mst1 and p-YAP/YAP ratios,prevented a reduction in total YAP protein expression,and increased the nuclear YAP protein level.Verteporfin(VP),a small molecular inhibitor of YAP–transcriptional enhanced associate domain(TEAD)interaction,partially abolished the protective effect of RGFP966 on cardiac function,and reduced lactate dehydrogenase activity and malondialdehyde content.RGFP966 increased superoxide dismutase,catalase,and glutathione peroxidase gene and protein expression,which was abolished by VP.RGFP966 inhibited hypothermic preservation-induced overexpression of B-cell lymphoma protein 2(Bcl-2)-associated X(Bax)and cleaved caspase-3,increased Bcl-2 mRNA and protein expression,and reduced cardiomyocyte apoptosis.The antioxidant and anti-apoptotic effects of RGFP966 were cancelled by VP.The results suggest that supplementation of Celsior solution with RGFP966 attenuated prolonged hypothermic preservation-induced cardiac dysfunction.The mechanism may involve inhibition of oxidative stress and apoptosis via inactivation of the YAP pathway.展开更多
AIM:To reveal whether and how Yes-associated protein(YAP)promotes the occurrence of subretinal fibrosis in agerelated macular degeneration(AMD).METHODS:Cobalt chloride(Co Cl2)was used in primary human umbilical vein e...AIM:To reveal whether and how Yes-associated protein(YAP)promotes the occurrence of subretinal fibrosis in agerelated macular degeneration(AMD).METHODS:Cobalt chloride(Co Cl2)was used in primary human umbilical vein endothelial cells(HUVECs)to induce hypoxia in vitro.Eight-week-old male C57 BL/6 J mice weighing 19-25 g were used for a choroidal neovascularization(CNV)model induced by laser photocoagulation in vivo.Expression levels of YAP,phosphorylated YAP,mesenchymal markers[αsmooth muscle actin(α-SMA),vimentin,and Snail],and endothelial cell markers(CD31 and zonula occludens 1)were measured by Western blotting,quantitative real-time PCR,and immunofluorescence microscopy.Small molecules YC-1(Lificiguat,a specific inhibitor of hypoxia-inducible factor 1α),CA3(CIL56,an inhibitor of YAP),and XMU-MP-1(an inhibitor of Hippo kinase MST1/2,which activates YAP)were used to explore the underlying mechanism.RESULTS:Co Cl2 increased expression of mesenchymal markers,decreased expression of endothelial cell markers,and enhanced the ability of primary HUVECs to proliferate and migrate.YC-1 suppressed hypoxia-induced endothelialto-mesenchymal transition(End MT).Moreover,hypoxia promoted total expression,inhibited phosphorylation,and enhanced the transcriptional activity of YAP.XMU-MP-1 enhanced hypoxia-induced End MT,whereas CA3 elicited the opposite effect.Expression of YAP,α-SMA,and vimentin were upregulated in the laser-induced CNV model.However,silencing of YAP by vitreous injection of small interfering RNA targeting YAP could reverse these changes.CONCLUSION:The findings reveal a critical role of the hypoxia-inducible factor-1α(HIF-1α)/YAP signaling axis in End MT and provide a new therapeutic target for treatment of subretinal fibrosis in AMD.展开更多
The constitutive androstane receptor(CAR, NR3 I1) belongs to nuclear receptor superfamily.It was reported that CAR agonist TCPOBOP induces hepatomegaly but the underlying mechanism remains largely unknown. Yes-associa...The constitutive androstane receptor(CAR, NR3 I1) belongs to nuclear receptor superfamily.It was reported that CAR agonist TCPOBOP induces hepatomegaly but the underlying mechanism remains largely unknown. Yes-associated protein(YAP) is a potent regulator of organ size. The aim of this study is to explore the role of YAP in CAR activation-induced hepatomegaly and liver regeneration.TCPOBOP-induced CAR activation on hepatomegaly and liver regeneration was evaluated in wildtype(WT) mice, liver-specific YAP-deficient mice, and partial hepatectomy(PHx) mice. The results demonstrate that TCPOBOP can increase the liver-to-body weight ratio in wild-type mice and PHx mice.Hepatocytes enlargement around central vein(CV) area was observed, meanwhile hepatocytesproliferation was promoted as evidenced by the increased number of KI67+cells around portal vein(PV)area. The protein levels of YAP and its downstream targets were upregulated in TCPOBOP-treated mice and YAP translocation can be induced by CAR activation. Co-immunoprecipitation results suggested a potential proteineprotein interaction of CAR and YAP. However, CAR activation-induced hepatomegaly can still be observed in liver-specific YAP-deficient(Yape/e) mice. In summary, CAR activation promotes hepatomegaly and liver regeneration partially by inducing YAP translocation and interaction with YAP signaling pathway, which provides new insights to further understand the physiological functions of CAR.展开更多
Stem cell expansion in vitro and transplantation in the cytokine-rich proinflammatory milieu in the injured tissue generate immense oxidative stress that interferes with the cells’survival,stemness,and repairability....Stem cell expansion in vitro and transplantation in the cytokine-rich proinflammatory milieu in the injured tissue generate immense oxidative stress that interferes with the cells’survival,stemness,and repairability.Stem cell priming has gained popularity to overcome these issues.Given melatonin’s oxidative-scavenging properties,Gu et al have used periodontal ligament stem cells cultured under oxidative stress as an in vitro model to study the cytoprotective effects of melatonin.Our letter to the editor delves into melatonin-induced stem cell priming and the underlying molecular mechanism,focusing on the intriguing role of Yesassociated protein signaling in alleviating oxidative stress.We stress the importance of understanding the distinction between in vitro and in vivo oxidative stress conditions,a crucial aspect of stem cell research that invokes a sense of critical thinking in the readership.The study by Gu et al presents a novel approach to oxidative stress management,offering exciting possibilities for future research and applications.展开更多
Liver is the central hub regulating energy metabolism during feeding-fasting transition.Evidence suggests that fasting and refeeding induce dynamic changes in liver size,but the underlying mechanisms remain unclear.Ye...Liver is the central hub regulating energy metabolism during feeding-fasting transition.Evidence suggests that fasting and refeeding induce dynamic changes in liver size,but the underlying mechanisms remain unclear.Yes-associated protein(YAP)is a key regulator of organ size.This study aims to explore the role of YAP in fasting-and refeeding-induced changes in liver size.Here,fasting significantly reduced liver size,which was recovered to the normal level after refeeding.Moreover,hepatocyte size was decreased and hepatocyte proliferation was inhibited after fasting.Conversely,refeeding promoted hepatocyte enlargement and proliferation compared to fasted state.Mechanistically,fasting or refeeding regulated the expression of YAP and its downstream targets,as well as the proliferation-related protein cyclin D1(CCND1).Furthermore,fasting significantly reduced the liver size in AAV-control mice,which was mitigated in AAV Yap(5SA)mice.Yap overexpression also prevented the effect of fasting on hepatocyte size and proliferation.Besides,the recovery of liver size after refeeding was delayed in AAV Yap shRNA mice.Yap knockdown attenuated refeeding-induced hepatocyte enlargement and proliferation.In summary,this study demonstrated that YAP plays an important role in dynamic changes of liver size during fasting-refeeding transition,which provides new evidence for YAP in regulating liver size under energy stress.展开更多
基金Supported by National Natural Science Foundation of China,No.30371607
文摘AIM:To analyze the differences and relevance of Yes-associated protein (YAP) and survivin, and to explore the correlation and signifi cance of their expression in gastric carcinoma and precancerous lesions.METHODS: The PV9000 immunohistochemical method was used to detect the expression of YAP and survivin in 98 cases of normal gastric mucosa, 58 intestinal metaplasia (IM), 32 dysplasia and 98 gastric carcinoma.RESULTS: The positive rates of YAP in dysplasia (37.5%) and gastric carcinoma (48.0%) were significantly higher than that in normal gastric mucosa (13.3%), P<0.01. The positive rates of survivin in IM (53.4%), dysplasia (59.4%) and gastric carcinoma (65.3%) were significantly higher than in normal gastric mucosa (11.2%), P<0.01. Survivin expression gradually increased from 41.7% in well differentiated adenocarcinoma through 58.3% in moderately differentiated adenocarcinoma to 75.6% in poorly differentiated adenocarcinoma, with significant Rank correlation, rk=0.279, P<0.01. The positive rate of survivin in gastric carcinoma of diffused type (74.6%) was significantly higher than that in intestinal type (51.3%), P<0.05. In gastric carcinoma with lymph node metastasis (76.9%), the positive rate of survivin was signifi cantly higher than that in the group without lymph node metastasis (41.2%), P<0.01. In 98 cases of gastric carcinoma, the expression of YAP and of survivin were positively correlated, rk=0.246, P<0.01.CONCLUSION: YAP may play an important role as a carcinogenic factor and may induce survivin expression. Detecting both markers together may help in early diagnosis of gastric carcinoma.
文摘BACKGROUND Long non-coding RNAs (lncRNAs) play important roles in many diseases, including hepatocellular carcinoma (HCC). Autophagy is a metabolic pathway that facilitates cancer cell survival in response to stress. The relationship between autophagy and the lncRNA-activated by transforming growth factor beta (lncRNA-ATB) in HCC remains unknown. AIM To explore the influence of lncRNA-ATB in regulating autophagy in HCC cells and the underlying mechanism. METHODS In the present study, we evaluated lncRNA-ATB expression in tumor and adjacent non-tumor tissues from 72 HCC cases by real-time PCR. We evaluated the role of lncRNA-ATB in the proliferation and clonogenicity of HCC cells in vitro. The effect of lncRNA-ATB on autophagy was determined using a LC3-GFP reporter and transmission electron microscopy. Furthermore, the mechanism by which lncRNA-ATB regulates autophagy was explored by immunofluorescence staining, RNA immunoprecipitation (RIP), and Western blot. RESULTS The expression of lncRNA-ATB was higher in HCC tissues than in normal liver tissues, and lncRNA-ATB expression was positively correlated with tumor size, TNM stage, and poorer survival of patients with HCC. Moreover, ectopic overexpression of lncRNA-ATB promoted cell proliferation and clonogenicnity of HCC cells in vitro. LncRNA-ATB promoted autophagy by activating Yesassociated protein (YAP). Moreover, lncRNA-ATB interacted with autophagy-related protein 5 (ATG5) mRNA and increased ATG5 expression. CONCLUSION LncRNA-ATB regulates autophagy by activating YAP and increasing ATG5 expression. Our data demonstrate a novel function for lncRNA-ATB in autophagy and suggest that lncRNA-ATB plays an important role in HCC.
基金This study was supported in part by grants from the National Natural Science Foundation of China,China(31971242,31701275)the National Science Foundation of Chongqing,China(cstc2020jcjymsxmX0189)+4 种基金the Chongqing Research Program of Basic Research and Frontier Technology,China(CSTC2019JCYJ-ZDXM0033)Open Fund for Key Laboratory of Biorheological Science and Technology,Ministry of Education,China(CQKLBST-2019-010)Innovation Talent Project of 2020 for Chongqing Primary and secondary School,China(CY200405)the National Key R&D Program,China(2016YFC1102305)The support from the Chongqing Engineering Laboratory in Vascular Implants,China,the Public Experiment Centre of State Bioindustrial Base(Chongqing)and the National“111 Plan”,China(B06023)are gratefully acknowledged.
文摘Objective:Arsenic trioxide(ATO or As2O3)has beneficial effects on suppressing neointimal hyperplasia and restenosis,but the mechanism is still unclear.The goal of this study is to further understand the mechanism of ATO's inhibitory effect on vascular smooth muscle cells(VSMCs).Methods and results:Through in vitro cell culture and in vivo stent implanting into the carotid arteries of rabbit,a synthetic-to-contractile phenotypic transition was induced and the proliferation of VSMCs was inhibited by ATO.F-actin filaments were clustered and the elasticity modulus was increased within the phenotypic modulation of VSMCs induced by ATO in vitro.Meanwhile,Yes-associated protein(YAP)nuclear translocation was inhibited by ATO both in vivo and in vitro.It was found that ROCK inhibitor or YAP inactivator could partially mask the phenotype modulation of ATO on VSMCs.Conclusions:The interaction of YAP with the ROCK pathway through ATO seems to mediate the contractile phenotype of VSMCs.This provides an indication of the clinical therapeutic mechanism for the beneficial bioactive effect of ATO-drug eluting stent(AES)on in-stent restenosis(ISR).
基金support of the National Key Research and Development Program of China(2016YFE0132700)National Natural Science Foundation of China(51822306,51673171)+1 种基金Science Technology Department of Zhejiang Province(2020C03042)the Fundamental Research Funds for the Central Universities of China.
文摘Hydrogels are three-dimensional platforms that serve as substitutes for native extracellular matrix.These materials are starting to play important roles in regenerative medicine because of their similarities to native matrix in water content and flexibility.It would be very advantagoues for researchers to be able to regulate cell behavior and fate with specific hydrogels that have tunable mechanical properties as biophysical cues.Recent developments in dynamic chemistry have yielded designs of adaptable hydrogels that mimic dynamic nature of extracellular matrix.The current review provides a comprehensive overview for adaptable hydrogel in regenerative medicine as follows.First,we outline strategies to design adaptable hydrogel network with reversible linkages according to previous findings in supramolecular chemistry and dynamic covalent chemistry.Next,we describe the mechanism of dynamic mechanical microenvironment influence cell behaviors and fate,including how stress relaxation influences on cell behavior and how mechanosignals regulate matrix remodeling.Finally,we highlight techniques such as bioprinting which utilize adaptable hydrogel in regenerative medicine.We conclude by discussing the limitations and challenges for adaptable hydrogel,and we present perspectives for future studies.
基金support from the members of the Chilab.We acknowledge the financial support in part by DOD(grant numbers W81XWH-17-1-0143,W81XWH-15-1-0486,W81XWH-19-1-0842)NIH(grant numbers GM124062,1R01NS111588-01A1).
文摘Ferroptosis is a novel form of iron-dependent cell death characterized by lipid per-oxidation.While the importance and disease relevance of ferroptosis is gaining recognition,much remains unknown about various genetic and non-genetic determinants of ferroptosis.Hippo signaling pathway is an evolutionarily conserved pathway that responds to various envi-ronmental cues and controls organ size,cell proliferation,death,and self-renewal capacity.In cancer biology,Hippo pathway is a potent tumor suppressing mechanism and its dysregulation contributes to apoptosis evasion,cancer development,metastasis,and treatment resistance.Hippo dysregulation leads to aberrant activation of YAP and TAZ,the two major transcription co-activators of TEADs,that induce the expression of genes triggering tumor-promoting pheno-types,including enhanced cell proliferation,self-renewal and apoptosis inhibition.The Hippo pathway is regulated by the cell-cell contact and cellular density/confluence.Recently,fer-roptosis has also been found being regulated by the cellular contact and density.The YAP/TAZ activation under low density,while confers apoptosis resistance,renders cancer cells sensitivity to ferroptosis.These findings establish YAP/TAZ and Hippo pathways as novel deter-minants of ferroptosis.Therefore,inducing ferroptosis may have therapeutic potential for YAP/TAZ-activated chemo-resistant and metastatic tumor cells.Reciprocally,various YAP/TAZ-targeting treatments under clinical development may confer ferroptosis resistance,limiting the therapeutic efficacy.
基金Supported by Joint Funds for Innovation of Science and Technology,Fujian Province(No.2019Y9047)Joint Funds for Innovation of Science and Technology of Fujian Province(No.2017Y9117)+3 种基金Young and Middle-Aged Talent Training Project of Fujian Provincial Health and Family Planning Commission(No.2020GGA072)Natural Science Foundation of Fujian Province(No.2020J011164,2020J011170)Startup Fund for Scientific Research,Fujian Medical University(No.2019QH1298)Science and Technology Plan Project of Fuzhou(No.2019-S-87)。
文摘Objective:To investigate the effects of Pien Tze Huang(PZH) on the migration and invasion of HCC cells and underlying molecular mechanism.Methods:Cell counting kit-8(CCK-8) was applied to evaluate the cell viabilities of SMMC-7721,SK-Hep-1,C3A and HL-7702(6 × 10^(3)cells/well) co-incubated with different concentrations of PZH(0,0.2,0.4,0.6,0.8 mg/mL) for 24 h.Transwell,wound healing assay,CCK-8and Annexin V-FITC/PI staining were conducted to investigate the effects of PZH on the migration,invasion,proliferation and apoptosis of SK-Hep-1 and SMMC-7721 cells(650 μg/mL for SK-Hep-1 cells and 330 μg/mL for SMMC-7721 cells),respectively.In vivo,lung metastasis mouse model constructed by tail vein injection of HCC cells was used for evaluating the anti-metastasis function of PZH.SK-Hep-1 cells(10^(6)cells/200 μL per mice) were injected into B-NDG mice via tail vein.Totally 8 mice were randomly divided into PZH and control groups,4 mice in each group.After 2-d inoculation,mice in the PZH group were administered with PZH(250 mg/kg,daily) and mice in the control group received only vehicle(PBS) from the 2nd day after xenograft to day 17.Transcriptome analysis based on RNA-seq was subsequently used for deciphering anti-tumor mechanism of PZH.Quantitative real-time polymerase chain reaction(qRT-PCR) and Western blot were applied to verify RNA-seq results.Luciferase reporter assay was performed to examine the transcriptional activity of yes-associated protein(YAP).Results:PZH treatment significantly inhibited the migration,invasion,proliferation and promoted the apoptosis of HCC cells in vitro and in vivo(P<0.01).Transcriptome analysis indicated that Hippo signaling pathway was associated with anti-metastasis function of PZH.Mechanical study showed PZH significantly inhibited the expressions of platelet derived growth factor receptor beta(PDGFRB),YAP,connective tissue growth factor(CCN2),N-cadherin,vimentin and matrix metallopeptidase 2(MMP2,P<0.01).Meanwhile,the phosphorylation of YAP was also enhanced by PZH treatment
文摘The control of organ size growth is one of the most fundamental aspects of life.In the past two decades,a highly conserved Hippo signaling pathway has been identified as a key molecular mechanism for governing organ size regulation.In the middle of this pathway is a kinase cascade that negatively regulates the downstream component Yes-associated protein(YAP)/transcriptional coactivator with PDZ-binding motif(TAZ)/Yorkie through phosphorylation.Phosphorylation of YAP/TAZ/Yorkie promotes its cytoplasmic localization,leads to cell apoptosis and restricts organ size overgrowth.When the Hippo pathway is inactivated,YAP/TAZ/Yorkie translocates into the nucleus to bind to the transcription enhancer factor(TEAD/TEF)family of transcriptional factors to promote cell growth and proliferation.In this review,we will focus on the structural and functional studies on the downstream transcription factor TEAD and its coactivator YAP.
基金supported by the German Research Council(Deutsche Forschungsgemeinschaft,HA3309/3-1/2,HA3309/6-1,HA3309/7-1)。
文摘Skeletal muscles are essential for locomotion,posture,and metabolic regulation.To understand physiological processes,exercise adaptation,and muscle-related disorders,it is critical to understand the molecular pathways that underlie skeletal muscle function.The process of muscle contra ction,orchestrated by a complex interplay of molecular events,is at the core of skeletal muscle function.Muscle contraction is initiated by an action potential and neuromuscular transmission requiring a neuromuscular junction.Within muscle fibers,calcium ions play a critical role in mediating the interaction between actin and myosin filaments that generate force.Regulation of calcium release from the sarcoplasmic reticulum plays a key role in excitation-contraction coupling.The development and growth of skeletal muscle are regulated by a network of molecular pathways collectively known as myogenesis.Myogenic regulators coordinate the diffe rentiation of myoblasts into mature muscle fibers.Signaling pathways regulate muscle protein synthesis and hypertrophy in response to mechanical stimuli and nutrient availability.Seve ral muscle-related diseases,including congenital myasthenic disorders,sarcopenia,muscular dystrophies,and metabolic myopathies,are underpinned by dys regulated molecular pathways in skeletal muscle.Therapeutic interventions aimed at preserving muscle mass and function,enhancing regeneration,and improving metabolic health hold promise by targeting specific molecular pathways.Other molecular signaling pathways in skeletal muscle include the canonical Wnt signaling pathway,a critical regulator of myogenesis,muscle regeneration,and metabolic function,and the Hippo signaling pathway.In recent years,more details have been uncovered about the role of these two pathways during myogenesis and in developing and adult skeletal muscle fibers,and at the neuromuscular junction.In fact,research in the last few years now suggests that these two signaling pathways are interconnected and that they jointly control physiological and pat
基金This study was supported by the grams from the Educational Bureau of Zhejiang Province (No. Y201122729), the National Natural Science Foundation of China (No. 81172560) and the Chinese Traditional Medicine Bureau of Zhejiang Province (No. 2012ZA004).
文摘Background Oral squamous cell carcinoma (OSCC) is one of the most common malignancies in the oral and maxillofacial region. Yes-associated protein 1 (YAP1) has been implicated as a bona fide oncogene in solid tumors. We seek to elucidate the role of YAP1 in OSCC tissue. Methods We identified YAP1 gene and protein overexpression in 30 OSCC patients and 10 normal oral mucosa tissues by immunohistochemistry, Western blotting and reverse transcription polymerase chain reaction (RT-PCR). Results In the normal oral mucosa by immunohistochemical staining, YAP1 mainly located in both the cytoplasm and nucleus mainly the nuclei of the basal cells. In OSCC, the expression of YAP1 translocated from the nucleus to cytoplasm YAP1 being mainly located in both the cytoplasm and nucleus of the adjacent mucosa. The expression of YAP1 gradual increased in normal oral mucosa, tumor adjacent mucosa and low grade, middle grade, high grade OSCC tissue by Western blotting. Significant difference was found between the expressions of the normal oral mucosa and OSCC tissue (P 〈0.05). The coincidence was detected between the normal oral mucosa and OSCC tissue by RT-PCR (P 〈0.05). Conclusions YAP1 is involved in the carcinogenesis and development of OSCC. There is a transformation between nucleus and cytoplasm.
文摘Breast cancer is a molecularly heterogeneous disease and the most common female malignancy.In recent years,therapy approaches have evolved to accommodate molecular diversity,with a focus on more biologically based therapies to minimize negative consequences.To regulate cell fate in human breast cells,the Hippo signaling pathway has been associated with the alpha subtype of estrogen receptors.This pathway regulates tissue size,regeneration,and healing,as well as the survival of tissue-specific stem cells,proliferation,and apoptosis in a variety of organs,allowing for cell differentiation.Hippo signaling is mediated by the kinases MST1,MST2,LATS1,and LATS2,as well as the adaptor proteins SAV1 and MOB.These kinases phosphorylate the downstream effectors of the Hippo pathway,yes-associated protein(YAP),and transcriptional coactivator with PDZ-binding motif(TAZ),suppressing the expression of their downstream target genes.The Hippo signaling pathway kinase cascade plays a significant role in all cancers.Understanding the principles of this kinase cascade would prevent the occurrence of breast cancer.In recent years,small noncoding RNAs,or microRNAs,have been implicated in the development of several malignancies,including breast cancer.The interconnections between miRNAs and Hippo signaling pathway core proteins in the breast,on the other hand,remain poorly understood.In this review,we focused on highlighting the Hippo signaling system,its key parts,its importance in breast cancer,and its regulation by miRNAs and other related pathways.
基金supported by the National Natural Science Foundation of China(81973314,82373865,81973332,82173824)the Anhui Provincial Natural Science Foundation for Distinguished Young Scholars(1808085J28,China)+4 种基金Collaborative Innovation Project of Key Scientific Research Platform in Anhui Universities(GXXT-2020-066,China)the Research Program for Higher Education Institutions in Anhui Province(2022AH030081,China)Anhui Provincial Key R&D Programs(2022e07020042,China)Program for Upgrading Scientific Research Level of Anhui Medical University(2019xkj T008,China)Academic Funding for Top-notch Talents in University Disciplines(Majors)of Anhui Province(gxbj ZD2021047,China)。
文摘Hyperplasia and migration of fibroblast-like synoviocytes(FLSs)are the key drivers in the pathogenesis of rheumatoid arthritis(RA)and joint destruction.Abundant Yes-associated protein(YAP),which is a powerful transcription co-activator for proliferative genes,was observed in the nucleus of inflammatory FLSs with unknown upstream mechanisms.Using Gene Expression Omnibus database analysis,it was found that Salvador homolog-1(SAV1),the pivotal negative regulator of the Hippo-YAP pathway,was slightly downregulated in RA synovium.However,SAV1 protein expression is extremely reduced.Subsequently,it was revealed that SAV1 is phosphorylated,ubiquitinated,and degraded by interacting with an important serine-threonine kinase,G protein-coupled receptor(GPCR)kinase 2(GRK2),which was predominately upregulated by GPCR activation induced by ligands such as prostaglandin E2(PGE2)in RA.This process further contributes to the decreased phosphorylation,nuclear translocation,and transcriptional potency of YAP,and leads to aberrant FLSs proliferation.Genetic depletion of GRK2 or inhibition of GRK2 by paroxetine rescued SAV1 expression and restored YAP phosphorylation and finally inhibited RA FLSs proliferation and migration.Similarly,paroxetine treatment effectively reduced the abnormal proliferation of FLSs in a rat model of collagen-induced arthritis which was accompanied by a significant improvement in clinical manifestations.Collectively,these results elucidate the significance of GRK2 regulation of Hippo-YAP signaling in FLSs proliferation and migration and the potential application of GRK2 inhibition in the treatment of FLSs-driven joint destruction in RA.
基金Supported by Open Foundation of Shandong Key Laboratory of Oral Tissue Regeneration,No.SDDX202001Shandong Provincial Natural Science Foundation,No.ZR2021MH075Clinical Research Center of Shandong University,No.2020SDUCRCC006.
文摘BACKGROUND Human periodontal ligament stem cells(PDLSCs)regenerate oral tissue.In vitro expansion causes replicative senescence in stem cells.This causes intracellular reactive oxygen species(ROS)accumulation,which can impair stem cell function.Tissue engineering efficiency is reduced by exogenous ROS stimulation,which causes premature senescence under oxidative stress.Melatonin(MT),a powerful free radical scavenger,can delay PDLSCs senescence but may not maintain stemness under oxidative stress.This experiment examined the effects of hydrogen peroxide-induced oxidative stress on PDLSCs’apoptosis,senescence,and stemness.AIM To determine if MT can reverse the above effects along with the underlying molecular mechanisms involved.METHODS PDLSCs were isolated from human premolars and cultured in different conditions.Flow cytometry was used to characterize the cell surface markers of BACKGROUND Human periodontal ligament stem cells(PDLSCs)regenerate oral tissue.In vitro expansion causes replicative senescence in stem cells.This causes intracellular reactive oxygen species(ROS)accumulation,which can impair stem cell function.Tissue engineering efficiency is reduced by exogenous ROS stimulation,which causes premature senescence under oxidative stress.Melatonin(MT),a powerful free radical scavenger,can delay PDLSCs senescence but may not maintain stemness under oxidative stress.This experiment examined the effects of hydrogen peroxide-induced oxidative stress on PDLSCs’apoptosis,senescence,and stemness.AIM To determine if MT can reverse the above effects along with the underlying molecular mechanisms involved.METHODS PDLSCs were isolated from human premolars and cultured in different conditions.Flow cytometry was used to characterize the cell surface markers of differentiation,ROS,and senescence-associatedβ-galactosidase activity were assessed by various assays.Reverse transcription-polymerase chain reaction and western blot were used to measure the expression of genes and proteins related to stemness and senescence
文摘Pancreatic ductal adenocarcinoma(PDAC) remains a deadly disease with no efficacious treatment options. PDAC incidence is projected to increase, which may be caused at least partially by the obesity epidemic. Significantly enhanced efforts to prevent or intercept this cancer are clearly warranted. Oncogenic KRAS mutations are recognized initiating events in PDAC development, however, they are not entirely sufficient for the development of fully invasive PDAC.Additional genetic alterations and/or environmental, nutritional, and metabolic signals, as present in obesity, type-2 diabetes mellitus, and inflammation, are required for full PDAC formation. We hypothesize that oncogenic KRAS increases the intensity and duration of the growth-promoting signaling network.Recent exciting studies from different laboratories indicate that the activity of the transcriptional co-activators Yes-associated protein(YAP) and WW-domaincontaining transcriptional co-activator with PDZ-binding motif(TAZ) play a critical role in the promotion and maintenance of PDAC operating as key downstream target of KRAS signaling. While initially thought to be primarily an effector of the tumor-suppressive Hippo pathway, more recent studies revealed that YAP/TAZ subcellular localization and co-transcriptional activity is regulated by multiple upstream signals. Overall, YAP has emerged as a central node of transcriptional convergence in growth-promoting signaling in PDAC cells. Indeed, YAP expression is an independent unfavorable prognostic marker for overall survival of PDAC. In what follows, we will review studies implicating YAP/TAZ in pancreatic cancer development and consider different approaches to target these transcriptional regulators.
基金supported by:The National Natural Science Foundation of China(82270688,81402426)The Natural Science Foundation.of Guangdong Province(2021A1515010726,2022A1515012650,2020A1515010302)+1 种基金The Cultivation Project of National Natural Science Foundationof the Third Affliated Hospital of Sun Yat-sen University(No.2020GzRPYMS09)Science and Technology ProjectsinGuangzhou(No.202102010310,202201020427).
文摘Background and Aims:Hepatic ischemia-reperfusion injury(HIRI)is a prevalent complication of liver transplantation,partial hepatectomy,and severe infection,necessitating the development of more effective clinical strategies.Receptor activity–modifying protein 1(RAMP1),a member of the G protein–coupled receptor adapter family,has been implicated in numerous physiological and pathological processes.The study aimed to investigate the pathogenesis of RAMP1 in HIRI.Methods:We established a 70%liver ischemia-reperfusion model in RAMP1 knockout(KO)and wild-type mice.Liver and blood samples were collected after 0,6,and 24 h of hypoxia/reperfusion.Liver histological and serological analyses were performed to evaluate liver damage.We also conducted in-vitro and in-vivo experiments to explore the molecular mechanism underlying RAMP1 function.Results:Liver injury was exacerbated in RAMP1-KO mice compared with the sham group,as evidenced by increased cell death and elevated serum transaminase and inflammation levels.HIRI was promoted in RAMP1-KO mice via the induction of hepatocyte apoptosis and inhibition of proliferation.The absence of RAMP1 led to increased activation of the extracellular signal–regulated kinase(ERK)/mitogen-activated protein kinase(MAPK)pathway and yes-associated protein(YAP)phosphorylation,ultimately promoting apoptosis.SCH772984,an ERK/MAPK phosphorylation inhibitor,and PY-60,a YAP phosphorylation inhibitor,reduced apoptosis in in-vitro and in-vivo experiments.Conclusions:Our findings suggest that RAMP1 protects against HIRI by inhibiting ERK and YAP phosphorylation signal transduction,highlighting its potential as a therapeutic target for HIRI and providing a new avenue for intervention.
基金Project supported by the National Natural Science Foundation of China(No.81871541)。
文摘Oxidative stress and apoptosis are the key factors that limit the hypothermic preservation time of donor hearts to within 4–6 h.The aim of this study was to investigate whether the histone deacetylase 3(HDAC3)inhibitor RmGodFyPn9 a6 m6 i cc opualrda mpreotteercst daugrianing srt ecpaerrdfiuasci oinn juwreyr ei nedvuacleuda tebyd.pTrholeo nexgperde shsyipoont haenrdm pich opsrpehsoerryvlaattiioonn.leRvaet lsh eoaf rtms awmemrea lihayn-??STE20-like kinase-1(Mst1)and Yes-associated protein(YAP)were determined by western blotting.Cell apoptosis was measured by the terminal deoxynucleotidyl-transferase(TdT)-mediated dUTP nick-end labeling(TUNEL)method.Addition of RGFP966 in Celsior solution significantly inhibited cardiac dysfunction induced by hypothermic preservation.RGFP966 inhibited the hypothermic preservation-induced increase of the phosphorylated(p)-Mst1/Mst1 and p-YAP/YAP ratios,prevented a reduction in total YAP protein expression,and increased the nuclear YAP protein level.Verteporfin(VP),a small molecular inhibitor of YAP–transcriptional enhanced associate domain(TEAD)interaction,partially abolished the protective effect of RGFP966 on cardiac function,and reduced lactate dehydrogenase activity and malondialdehyde content.RGFP966 increased superoxide dismutase,catalase,and glutathione peroxidase gene and protein expression,which was abolished by VP.RGFP966 inhibited hypothermic preservation-induced overexpression of B-cell lymphoma protein 2(Bcl-2)-associated X(Bax)and cleaved caspase-3,increased Bcl-2 mRNA and protein expression,and reduced cardiomyocyte apoptosis.The antioxidant and anti-apoptotic effects of RGFP966 were cancelled by VP.The results suggest that supplementation of Celsior solution with RGFP966 attenuated prolonged hypothermic preservation-induced cardiac dysfunction.The mechanism may involve inhibition of oxidative stress and apoptosis via inactivation of the YAP pathway.
基金National Natural Science Foundation of China(No.81970817,No.81873680)。
文摘AIM:To reveal whether and how Yes-associated protein(YAP)promotes the occurrence of subretinal fibrosis in agerelated macular degeneration(AMD).METHODS:Cobalt chloride(Co Cl2)was used in primary human umbilical vein endothelial cells(HUVECs)to induce hypoxia in vitro.Eight-week-old male C57 BL/6 J mice weighing 19-25 g were used for a choroidal neovascularization(CNV)model induced by laser photocoagulation in vivo.Expression levels of YAP,phosphorylated YAP,mesenchymal markers[αsmooth muscle actin(α-SMA),vimentin,and Snail],and endothelial cell markers(CD31 and zonula occludens 1)were measured by Western blotting,quantitative real-time PCR,and immunofluorescence microscopy.Small molecules YC-1(Lificiguat,a specific inhibitor of hypoxia-inducible factor 1α),CA3(CIL56,an inhibitor of YAP),and XMU-MP-1(an inhibitor of Hippo kinase MST1/2,which activates YAP)were used to explore the underlying mechanism.RESULTS:Co Cl2 increased expression of mesenchymal markers,decreased expression of endothelial cell markers,and enhanced the ability of primary HUVECs to proliferate and migrate.YC-1 suppressed hypoxia-induced endothelialto-mesenchymal transition(End MT).Moreover,hypoxia promoted total expression,inhibited phosphorylation,and enhanced the transcriptional activity of YAP.XMU-MP-1 enhanced hypoxia-induced End MT,whereas CA3 elicited the opposite effect.Expression of YAP,α-SMA,and vimentin were upregulated in the laser-induced CNV model.However,silencing of YAP by vitreous injection of small interfering RNA targeting YAP could reverse these changes.CONCLUSION:The findings reveal a critical role of the hypoxia-inducible factor-1α(HIF-1α)/YAP signaling axis in End MT and provide a new therapeutic target for treatment of subretinal fibrosis in AMD.
基金supported by the Natural Science Foundation of China (Grant numbers:82025034 and 81973392)the National Key Research and Development Program (Grant number:2017YFE0109900, China)+5 种基金the Shenzhen Science and Technology Program (Grant number:KQTD20190929174023858, China)the Natural Science Foundation of Guangdong (Grant number:2017A030311018, China)the 111 project (Grant number:B16047, China)the Key Laboratory Foundation of Guangdong Province (Grant number:2017B030314030, China)the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program (Grant number:2017BT01Y093, China)the National Engineering and Technology Research Center for New drug Druggability Evaluation (Seed Program of Guangdong Province, Grant number:2017B090903004, China)。
文摘The constitutive androstane receptor(CAR, NR3 I1) belongs to nuclear receptor superfamily.It was reported that CAR agonist TCPOBOP induces hepatomegaly but the underlying mechanism remains largely unknown. Yes-associated protein(YAP) is a potent regulator of organ size. The aim of this study is to explore the role of YAP in CAR activation-induced hepatomegaly and liver regeneration.TCPOBOP-induced CAR activation on hepatomegaly and liver regeneration was evaluated in wildtype(WT) mice, liver-specific YAP-deficient mice, and partial hepatectomy(PHx) mice. The results demonstrate that TCPOBOP can increase the liver-to-body weight ratio in wild-type mice and PHx mice.Hepatocytes enlargement around central vein(CV) area was observed, meanwhile hepatocytesproliferation was promoted as evidenced by the increased number of KI67+cells around portal vein(PV)area. The protein levels of YAP and its downstream targets were upregulated in TCPOBOP-treated mice and YAP translocation can be induced by CAR activation. Co-immunoprecipitation results suggested a potential proteineprotein interaction of CAR and YAP. However, CAR activation-induced hepatomegaly can still be observed in liver-specific YAP-deficient(Yape/e) mice. In summary, CAR activation promotes hepatomegaly and liver regeneration partially by inducing YAP translocation and interaction with YAP signaling pathway, which provides new insights to further understand the physiological functions of CAR.
文摘Stem cell expansion in vitro and transplantation in the cytokine-rich proinflammatory milieu in the injured tissue generate immense oxidative stress that interferes with the cells’survival,stemness,and repairability.Stem cell priming has gained popularity to overcome these issues.Given melatonin’s oxidative-scavenging properties,Gu et al have used periodontal ligament stem cells cultured under oxidative stress as an in vitro model to study the cytoprotective effects of melatonin.Our letter to the editor delves into melatonin-induced stem cell priming and the underlying molecular mechanism,focusing on the intriguing role of Yesassociated protein signaling in alleviating oxidative stress.We stress the importance of understanding the distinction between in vitro and in vivo oxidative stress conditions,a crucial aspect of stem cell research that invokes a sense of critical thinking in the readership.The study by Gu et al presents a novel approach to oxidative stress management,offering exciting possibilities for future research and applications.
基金supported by the National Key R&D Program of China(2022YFA1104900)the Natural Science Foundation of China(Grant number:82025034,81973392)+3 种基金the Shenzhen Science and Technology Program(KQTD20190929174023858,China)the 111 project(Grant number:B16047,China)the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program(Grant number:2017BT01Y093,China)the National Engineering and Technology Research Center for New drug Druggability Evaluation(Seed Program of Guangdong Province,Grant number:2017B090903004,China)。
文摘Liver is the central hub regulating energy metabolism during feeding-fasting transition.Evidence suggests that fasting and refeeding induce dynamic changes in liver size,but the underlying mechanisms remain unclear.Yes-associated protein(YAP)is a key regulator of organ size.This study aims to explore the role of YAP in fasting-and refeeding-induced changes in liver size.Here,fasting significantly reduced liver size,which was recovered to the normal level after refeeding.Moreover,hepatocyte size was decreased and hepatocyte proliferation was inhibited after fasting.Conversely,refeeding promoted hepatocyte enlargement and proliferation compared to fasted state.Mechanistically,fasting or refeeding regulated the expression of YAP and its downstream targets,as well as the proliferation-related protein cyclin D1(CCND1).Furthermore,fasting significantly reduced the liver size in AAV-control mice,which was mitigated in AAV Yap(5SA)mice.Yap overexpression also prevented the effect of fasting on hepatocyte size and proliferation.Besides,the recovery of liver size after refeeding was delayed in AAV Yap shRNA mice.Yap knockdown attenuated refeeding-induced hepatocyte enlargement and proliferation.In summary,this study demonstrated that YAP plays an important role in dynamic changes of liver size during fasting-refeeding transition,which provides new evidence for YAP in regulating liver size under energy stress.
