Sulfatases which cleave sulfate esters in biological systems are key enzymes that deserve special attention due to their significant roles in organic sulfur (OS) mineralization and inorganic sulfur () release. In this...Sulfatases which cleave sulfate esters in biological systems are key enzymes that deserve special attention due to their significant roles in organic sulfur (OS) mineralization and inorganic sulfur () release. In this study, in-vitro experiments were conducted to evaluate S bonded substrate hydrolysis by a commercially available arylsulfatase (EC 3.1.6.1) from Aerobacter aerogenes. The enzyme-substrate interactions were assessed to determine: 1) rate of hydrolysis, 2) catalytic efficiency, 3) thermal stability, and 4) optimal pH of this enzyme. Arylsulfatase exhibited substrate hydrolysis with a high affinity for p-nitrophenyl sulfate (potassium 4-nitrophenyl sulfate (pNPS)). The optimum activity for the enzyme was observed to occur at a pH of 7.1. The optimal temperature was 37°C but ranged from 35°C - 45°C. The apparent Km and Kcat of the enzyme for pNPS hydrolysis at the optimal pH, and temperature were determined to be 1.03 mM and 75.73 μM/min, respectively. This work defines the catalytic and kinetic properties of arylsulfatase (EC 3.1.6.1) and confirms the optimal conditions for sulfatase activity testing. The resulting information is useful in elucidating the contributions that individual enzymes have for specific reactions rather than relying on traditional total enzyme activity measurements.展开更多
AIM:To clarify the association of glypican-3(GPC3)expression with Wnt and other growth signaling molecules in hepatocellular carcinoma(HCC). METHODS:Expression of GPC3,Wnt,matrix metalloproteinases(MMPs),sulfatase(SUL...AIM:To clarify the association of glypican-3(GPC3)expression with Wnt and other growth signaling molecules in hepatocellular carcinoma(HCC). METHODS:Expression of GPC3,Wnt,matrix metalloproteinases(MMPs),sulfatase(SULF)1,SULF2,and other growth signaling molecules was analyzed in HCC cell lines and tissue samples by real-time reverse transcriptionpolymerase chain reaction,immunoblotting,and/or immunostaining.Expression of various genes in GPC3 siRNA-transfected HCC cells was analyzed. RESULTS:GPC3 was overexpressed in most HCCs at mRNA and protein levels and its serum levels weresignificantly higher in patients with HCC than in non- HCC subjects(P<0.05).Altered expressions of various MMPs and growth signaling molecules,some of which were correlated with GPC3 expression,were observed in HCCs.Down-regulation of GPC3 expression by siRNA in GPC3-overexpressing HCC cell lines resulted in a significant decrease in expressions of MMP2,MMP14,fibroblast growth factor receptor 1,insulin-like growth factor 1 receptor.GPC3 expression was significantly correlated with nuclear/cytoplasmic localization ofβ-catenin. CONCLUSION:These results suggest that GPC3,in conjunction with MMPs and growth signaling molecules, might play an important role in the progression of HCC.展开更多
Postpartum psychosis is a severe psychiatric condition which affects 1-2 of every 1000 mothers shortly after childbirth. Whilst there is convincing evidence that the condition is precipitated by a complex combination ...Postpartum psychosis is a severe psychiatric condition which affects 1-2 of every 1000 mothers shortly after childbirth. Whilst there is convincing evidence that the condition is precipitated by a complex combination of biological and environmental factors, as yet the pathophysiological mechanisms remain extremely poorly defined. Here, I critically review approaches that have been, or are being, employed to identify and characterise such mechanisms; I also review a recent animal model approach, and describe a novel biological risk model that it suggests. Clarification of biological risk mechanisms underlying disorder risk should permit the identification of relevant predictive biomarkers which will ensure that "at risk" subjects receive prompt clinical intervention if required.展开更多
Abstract Six new cell lines were established from embryonic tissues of the diamondback moth, Plutella xylostella (L.). The cell lines showed differential characteristics, including growth in attachment or in suspensio...Abstract Six new cell lines were established from embryonic tissues of the diamondback moth, Plutella xylostella (L.). The cell lines showed differential characteristics, including growth in attachment or in suspension, susceptibility to a baculovirus infection and expression of genes involved in the glucosinolate detoxification pathway in R xylostella larvae. Five of the cell lines grew attached to the culture flask and one cell line grew unattached as a suspension cell line. The cell lines had population doubling times ranging from IS to 23 h. Among five of the P. xylostella cell lines examined for infection of a nucleopolyhe. drovirus from Autographa californica, AcMNPV four cell lines were highly susceptible to AcMNPV infection, but one was only semi-permissive to AcMNPV infection. The production of two recombinant proteins, a β-galactosidase of bacterial origin and a secreted alkaline phosphatase of eukaryotic origin, in the R xylostella cell lines was examined in comparison with that in the cell line Sf9 which is commonly used for recombinant protein production. In the P. xylostella cell lines, expression of three important midgut genes involved in the glucosinolate detoxification pathway, including the glucosinolate sulfatase genes GSS1 and GSS2 and the sulfatase modifying factor gene SUMF1、was detected. The R xylostella cell lines developed in this study could be useful in in vitro research systems for studying insec-virus interactions and complex molecular mechanisms in glucosinolate detoxification and insect-plant interactions.展开更多
Nutrient sulfate is essential for numerous physiological functions in mammalian growth and development. Accordingly, disruptions to any of the molecular processes that maintain the required biological ratio of sulfona...Nutrient sulfate is essential for numerous physiological functions in mammalian growth and development. Accordingly, disruptions to any of the molecular processes that maintain the required biological ratio of sulfonated and unconjugated substrates are likely to have detrimental consequences for mammalian physiology. Molecular processes of sulfate biology can be broadly grouped into four categories: firstly, intracellular sulfate levels are maintained by intermediary metabolism and sulfate transporters that mediate the transfer of sulfate across the plasma membrane; secondly, sulfate is converted to 3'-phosphoadenosine 5'-phosphosulfate (PAPS), which is the universal sulfonate donor for all sulfonation reactions; thirdly, sulfotransferases mediate the intracellular sulfonation of endogenous and exogenous substrates; fourthly, sulfate is removed from substrates via sulfatases. From the literature, we curated 91 human genes that encode all known sulfate transporters, enzymes in pathways of sulfate generation, PAPS synthetases and transporters, sulfotransferases and sulfatases, with a focus on genes that are linked to human and animal pathophysiology. The predominant clinical features linked to these genes include neurological dysfunction, skeletal dysplasias, reduced fecundity and reproduction, and cardiovascular pathologies. Collectively, this review provides reference information for genetic investigations of perturbed mammalian sulfate biology.展开更多
Objectives: Estrogens significantly contribute toward the growth and development of endometrial cancers. Two principal pathways have been implicated in the final steps of estrogen synthesis: the steroid sulfatase (STS...Objectives: Estrogens significantly contribute toward the growth and development of endometrial cancers. Two principal pathways have been implicated in the final steps of estrogen synthesis: the steroid sulfatase (STS) and aromatase pathways. In this study, we aimed to evaluate the possible effects of tumor-stromal interactions on local estrogen biosynthesis in endometrial cancer. We also assessed the biological effects of inhibitors of steroid sulfatase and aromatase in the co-culture system compared with usual monocultures. Methods/Materials: We isolated stromal cells from endometrial cancer patients to examine local biosynthesis of estrogens and tumor-stromal interactions. Next we examined the effects of steroid sulfatase inhibitor and aromatase inhibitor in monoculture of endometrial cancer cell line (Ishikawa) and in a co-culture system involving an Ishikawa cells and stromal cells. Results: Estrogen receptor and steroid sulfatase mRNA levels in cancer cells were significantly higher in the co-cultures compared with the monocultures of endometrial cancer cells. Estradiol and androstenediol concentrations were also significantly higher in the co-cultured cells. Proliferation of the cancer cells was significantly increased through the steroid sulfatase pathway, which metabolizes androgens, estrone sulfate, and estradiol sulfate as its substrates. However, its proliferation was significantly decreased by the treatment of steroid sulfatase or aromatase inhibitors. The significant growth inhibition by the steroid sulfatase and aromatase inhibitors were also observed in the co-culture system. Conclusions: We evaluated the effects of STS inhibitor and aromatase inhibitors on the proliferation of estrogen-dependent endometrial cancer cells. Considering that intratumoral estrogen metabolism plays an important role, our co-culture systems provide an environment similar to that of the tumor in living patients in terms of metabolism and synthesis of intratumoral estrogens. The results of this study may aid in achieving 展开更多
文摘Sulfatases which cleave sulfate esters in biological systems are key enzymes that deserve special attention due to their significant roles in organic sulfur (OS) mineralization and inorganic sulfur () release. In this study, in-vitro experiments were conducted to evaluate S bonded substrate hydrolysis by a commercially available arylsulfatase (EC 3.1.6.1) from Aerobacter aerogenes. The enzyme-substrate interactions were assessed to determine: 1) rate of hydrolysis, 2) catalytic efficiency, 3) thermal stability, and 4) optimal pH of this enzyme. Arylsulfatase exhibited substrate hydrolysis with a high affinity for p-nitrophenyl sulfate (potassium 4-nitrophenyl sulfate (pNPS)). The optimum activity for the enzyme was observed to occur at a pH of 7.1. The optimal temperature was 37°C but ranged from 35°C - 45°C. The apparent Km and Kcat of the enzyme for pNPS hydrolysis at the optimal pH, and temperature were determined to be 1.03 mM and 75.73 μM/min, respectively. This work defines the catalytic and kinetic properties of arylsulfatase (EC 3.1.6.1) and confirms the optimal conditions for sulfatase activity testing. The resulting information is useful in elucidating the contributions that individual enzymes have for specific reactions rather than relying on traditional total enzyme activity measurements.
基金Supported by Grants-in-Aid for Scientific Research from the Ministry of Education,Culture,Sports,Science and Technology of Japan(to Yamamoto H,Imai K and Shinomura Y)Grants-in-Aid for Cancer Research from the Ministry of Health,Labor and Welfare of Japan(to Yamamoto H)
文摘AIM:To clarify the association of glypican-3(GPC3)expression with Wnt and other growth signaling molecules in hepatocellular carcinoma(HCC). METHODS:Expression of GPC3,Wnt,matrix metalloproteinases(MMPs),sulfatase(SULF)1,SULF2,and other growth signaling molecules was analyzed in HCC cell lines and tissue samples by real-time reverse transcriptionpolymerase chain reaction,immunoblotting,and/or immunostaining.Expression of various genes in GPC3 siRNA-transfected HCC cells was analyzed. RESULTS:GPC3 was overexpressed in most HCCs at mRNA and protein levels and its serum levels weresignificantly higher in patients with HCC than in non- HCC subjects(P<0.05).Altered expressions of various MMPs and growth signaling molecules,some of which were correlated with GPC3 expression,were observed in HCCs.Down-regulation of GPC3 expression by siRNA in GPC3-overexpressing HCC cell lines resulted in a significant decrease in expressions of MMP2,MMP14,fibroblast growth factor receptor 1,insulin-like growth factor 1 receptor.GPC3 expression was significantly correlated with nuclear/cytoplasmic localization ofβ-catenin. CONCLUSION:These results suggest that GPC3,in conjunction with MMPs and growth signaling molecules, might play an important role in the progression of HCC.
基金Supported by Medical Research Council Centre for Neuro-psychiatric Genetics and Genomics,No.MR/L010305/1
文摘Postpartum psychosis is a severe psychiatric condition which affects 1-2 of every 1000 mothers shortly after childbirth. Whilst there is convincing evidence that the condition is precipitated by a complex combination of biological and environmental factors, as yet the pathophysiological mechanisms remain extremely poorly defined. Here, I critically review approaches that have been, or are being, employed to identify and characterise such mechanisms; I also review a recent animal model approach, and describe a novel biological risk model that it suggests. Clarification of biological risk mechanisms underlying disorder risk should permit the identification of relevant predictive biomarkers which will ensure that "at risk" subjects receive prompt clinical intervention if required.
基金the National Natural Science Foundation of China (Project nos. 31320103922, 31230061 and 31301677)the National Key Project of Fundamental Scientific Research (“973" Programs, No. 2011CB100404)+1 种基金the Program of Introducing Talents of Discipline to Universities ("Program 111")the Jim shan Scholar Program of Fujian Agricultural and Forestry University.
文摘Abstract Six new cell lines were established from embryonic tissues of the diamondback moth, Plutella xylostella (L.). The cell lines showed differential characteristics, including growth in attachment or in suspension, susceptibility to a baculovirus infection and expression of genes involved in the glucosinolate detoxification pathway in R xylostella larvae. Five of the cell lines grew attached to the culture flask and one cell line grew unattached as a suspension cell line. The cell lines had population doubling times ranging from IS to 23 h. Among five of the P. xylostella cell lines examined for infection of a nucleopolyhe. drovirus from Autographa californica, AcMNPV four cell lines were highly susceptible to AcMNPV infection, but one was only semi-permissive to AcMNPV infection. The production of two recombinant proteins, a β-galactosidase of bacterial origin and a secreted alkaline phosphatase of eukaryotic origin, in the R xylostella cell lines was examined in comparison with that in the cell line Sf9 which is commonly used for recombinant protein production. In the P. xylostella cell lines, expression of three important midgut genes involved in the glucosinolate detoxification pathway, including the glucosinolate sulfatase genes GSS1 and GSS2 and the sulfatase modifying factor gene SUMF1、was detected. The R xylostella cell lines developed in this study could be useful in in vitro research systems for studying insec-virus interactions and complex molecular mechanisms in glucosinolate detoxification and insect-plant interactions.
基金supported by the Mater Medical Research Institute,Mater Foundation and a Mater Foundation Research Fellowship to PAD
文摘Nutrient sulfate is essential for numerous physiological functions in mammalian growth and development. Accordingly, disruptions to any of the molecular processes that maintain the required biological ratio of sulfonated and unconjugated substrates are likely to have detrimental consequences for mammalian physiology. Molecular processes of sulfate biology can be broadly grouped into four categories: firstly, intracellular sulfate levels are maintained by intermediary metabolism and sulfate transporters that mediate the transfer of sulfate across the plasma membrane; secondly, sulfate is converted to 3'-phosphoadenosine 5'-phosphosulfate (PAPS), which is the universal sulfonate donor for all sulfonation reactions; thirdly, sulfotransferases mediate the intracellular sulfonation of endogenous and exogenous substrates; fourthly, sulfate is removed from substrates via sulfatases. From the literature, we curated 91 human genes that encode all known sulfate transporters, enzymes in pathways of sulfate generation, PAPS synthetases and transporters, sulfotransferases and sulfatases, with a focus on genes that are linked to human and animal pathophysiology. The predominant clinical features linked to these genes include neurological dysfunction, skeletal dysplasias, reduced fecundity and reproduction, and cardiovascular pathologies. Collectively, this review provides reference information for genetic investigations of perturbed mammalian sulfate biology.
文摘Objectives: Estrogens significantly contribute toward the growth and development of endometrial cancers. Two principal pathways have been implicated in the final steps of estrogen synthesis: the steroid sulfatase (STS) and aromatase pathways. In this study, we aimed to evaluate the possible effects of tumor-stromal interactions on local estrogen biosynthesis in endometrial cancer. We also assessed the biological effects of inhibitors of steroid sulfatase and aromatase in the co-culture system compared with usual monocultures. Methods/Materials: We isolated stromal cells from endometrial cancer patients to examine local biosynthesis of estrogens and tumor-stromal interactions. Next we examined the effects of steroid sulfatase inhibitor and aromatase inhibitor in monoculture of endometrial cancer cell line (Ishikawa) and in a co-culture system involving an Ishikawa cells and stromal cells. Results: Estrogen receptor and steroid sulfatase mRNA levels in cancer cells were significantly higher in the co-cultures compared with the monocultures of endometrial cancer cells. Estradiol and androstenediol concentrations were also significantly higher in the co-cultured cells. Proliferation of the cancer cells was significantly increased through the steroid sulfatase pathway, which metabolizes androgens, estrone sulfate, and estradiol sulfate as its substrates. However, its proliferation was significantly decreased by the treatment of steroid sulfatase or aromatase inhibitors. The significant growth inhibition by the steroid sulfatase and aromatase inhibitors were also observed in the co-culture system. Conclusions: We evaluated the effects of STS inhibitor and aromatase inhibitors on the proliferation of estrogen-dependent endometrial cancer cells. Considering that intratumoral estrogen metabolism plays an important role, our co-culture systems provide an environment similar to that of the tumor in living patients in terms of metabolism and synthesis of intratumoral estrogens. The results of this study may aid in achieving
