Background:The cellular tumor protein p53(TP53)is a tumor suppressor gene that is frequently mutated in human cancers.Among various cancer types,the very aggressive high-grade serous ovarian carcinoma(HGSOC)exhibits t...Background:The cellular tumor protein p53(TP53)is a tumor suppressor gene that is frequently mutated in human cancers.Among various cancer types,the very aggressive high-grade serous ovarian carcinoma(HGSOC)exhibits the high-est prevalence of TP53 mutations,present in>96%of cases.Despite intensive efforts to reactivate p53,no clinical drug has been approved to rescue p53 func-tion.In this study,our primary objective was to administer in vitro-transcribed(IVT)wild-type(WT)p53-mRNA to HGSOC cell lines,primary cells,and ortho-topic mouse models,with the aim of exploring its impact on inhibiting tumor growth and dissemination,both in vitro and in vivo.Methods:To restore the activity of p53,WT p53 was exogenously expressed in HGSOC cell lines using a mammalian vector system.Moreover,IVT WT p53 mRNA was delivered into different HGSOC model systems(primary cells and patient-derived organoids)using liposomes and studied for proliferation,cell cycle progression,apoptosis,colony formation,and chromosomal instabil-ity.Transcriptomic alterations induced by p53 mRNA were analyzed using RNA sequencing in OVCAR-8 and primary HGSOC cells,followed by ingenuity path-way analysis.In vivo effects on tumor growth and metastasis were studied using orthotopic xenografts and metastatic intraperitoneal mouse models.Results:Reactivation of the TP53 tumor suppressor gene was explored in differ-ent HGSOC model systems using newly designed IVT mRNA-based methods.The introduction of WT p53 mRNA triggered dose-dependent apoptosis,cell cycle arrest,and potent long-lasting inhibition of HGSOC cell proliferation.Transcriptome analysis of OVCAR-8 cells upon mRNA-based p53 reactivation revealed significant alterations in gene expression related to p53 signaling,such as apoptosis,cell cycle regulation,and DNA damage.Restoring p53 function concurrently reduces chromosomal instability within the HGSOC cells,under-scoring its crucial contribution in safeguarding genomic integrity by moderating the baseline occurrence of double-strand breaks arising fro展开更多
Aim:This study investigated the ATP binding cassette(ABC)transporter(ABCA1,ABCB1,ABCB3,ABCC2 and ABCG2)expression in high grade serous ovarian cancer(HGSOC)tissues,cell lines and primary cells to determine their poten...Aim:This study investigated the ATP binding cassette(ABC)transporter(ABCA1,ABCB1,ABCB3,ABCC2 and ABCG2)expression in high grade serous ovarian cancer(HGSOC)tissues,cell lines and primary cells to determine their potential relationship with acquired chemotherapy resistance and patient outcome.Methods:ABC transporter mRNA and protein expression(ABCA1,ABCB1,ABCB3,ABCC2 and ABCG2)was assessed in publicly available datasets and in a tissue microarray(TMA)cohort of HGSOC at diagnosis,respectively.ABC transporter mRNA expression was also assessed in chemosensitive ovarian cancer cell lines(OVCAR-5 and CaOV3)versus matching cell lines with acquired carboplatin resistance and in primary HGSOC cells from patients with chemosensitive disease at diagnosis(n=10)as well as patients with acquired chemotherapy resistance at relapse(n=6).The effects of the ABCA1 inhibitor apabetalone in carboplatin-sensitive and-resistant cell lines were also investigated.Results:High ABCA1 mRNA and protein expression was found to be significantly associated with poor patient outcome.ABCA1 mRNA and protein levels were significantly increased in ovarian cancer cell lines(OVCAR-5 CBPR and CaOV3 CBPR)with acquired carboplatin resistance.ABCA1 mRNA was significantly increased in primary HGSOC cells obtained from patients with acquired chemotherapy resistance.Apabetalone treatment reduced ABCA1 protein expression and increased the sensitivity of both parental and carboplatin-resistant ovarian cancer cells to carboplatin.Conclusion: These results suggest that inhibiting ABCA1 transporter may be useful in overcoming acquired chemotherapy resistance and improving outcome for patients with HGSOC.展开更多
卵巢癌是妇科常见的恶性肿瘤之一,国际癌症研究机构(International Agency for Research On cancer,IARC)发布的对185个国家、36种癌症的发病率和死亡率预估报告显示,2018年,全球约有295414例卵巢癌新发病例及184799例死亡病例[1]。发...卵巢癌是妇科常见的恶性肿瘤之一,国际癌症研究机构(International Agency for Research On cancer,IARC)发布的对185个国家、36种癌症的发病率和死亡率预估报告显示,2018年,全球约有295414例卵巢癌新发病例及184799例死亡病例[1]。发表在《柳叶刀》的癌症生存趋势全球监测报告(CONCORD-3),对2000—2014年期间来自71个国家的37513025例恶性肿瘤患者的资料进行了统计分析发现,卵巢癌患者的年龄标准化5年生存率在30%~50%之间,较1995—1999年并无显著升高。而于2010—2014年间确诊为乳腺癌的女性,其5年生存率已接近90%[2]。展开更多
基金This work was supported by grants from the Deutsche Krebshilfe(70114007)Wilhelm Sander Stiftung(Nr.2021.023.1),German Cancer Consortium(DKTK),Heidelberg.
文摘Background:The cellular tumor protein p53(TP53)is a tumor suppressor gene that is frequently mutated in human cancers.Among various cancer types,the very aggressive high-grade serous ovarian carcinoma(HGSOC)exhibits the high-est prevalence of TP53 mutations,present in>96%of cases.Despite intensive efforts to reactivate p53,no clinical drug has been approved to rescue p53 func-tion.In this study,our primary objective was to administer in vitro-transcribed(IVT)wild-type(WT)p53-mRNA to HGSOC cell lines,primary cells,and ortho-topic mouse models,with the aim of exploring its impact on inhibiting tumor growth and dissemination,both in vitro and in vivo.Methods:To restore the activity of p53,WT p53 was exogenously expressed in HGSOC cell lines using a mammalian vector system.Moreover,IVT WT p53 mRNA was delivered into different HGSOC model systems(primary cells and patient-derived organoids)using liposomes and studied for proliferation,cell cycle progression,apoptosis,colony formation,and chromosomal instabil-ity.Transcriptomic alterations induced by p53 mRNA were analyzed using RNA sequencing in OVCAR-8 and primary HGSOC cells,followed by ingenuity path-way analysis.In vivo effects on tumor growth and metastasis were studied using orthotopic xenografts and metastatic intraperitoneal mouse models.Results:Reactivation of the TP53 tumor suppressor gene was explored in differ-ent HGSOC model systems using newly designed IVT mRNA-based methods.The introduction of WT p53 mRNA triggered dose-dependent apoptosis,cell cycle arrest,and potent long-lasting inhibition of HGSOC cell proliferation.Transcriptome analysis of OVCAR-8 cells upon mRNA-based p53 reactivation revealed significant alterations in gene expression related to p53 signaling,such as apoptosis,cell cycle regulation,and DNA damage.Restoring p53 function concurrently reduces chromosomal instability within the HGSOC cells,under-scoring its crucial contribution in safeguarding genomic integrity by moderating the baseline occurrence of double-strand breaks arising fro
文摘Aim:This study investigated the ATP binding cassette(ABC)transporter(ABCA1,ABCB1,ABCB3,ABCC2 and ABCG2)expression in high grade serous ovarian cancer(HGSOC)tissues,cell lines and primary cells to determine their potential relationship with acquired chemotherapy resistance and patient outcome.Methods:ABC transporter mRNA and protein expression(ABCA1,ABCB1,ABCB3,ABCC2 and ABCG2)was assessed in publicly available datasets and in a tissue microarray(TMA)cohort of HGSOC at diagnosis,respectively.ABC transporter mRNA expression was also assessed in chemosensitive ovarian cancer cell lines(OVCAR-5 and CaOV3)versus matching cell lines with acquired carboplatin resistance and in primary HGSOC cells from patients with chemosensitive disease at diagnosis(n=10)as well as patients with acquired chemotherapy resistance at relapse(n=6).The effects of the ABCA1 inhibitor apabetalone in carboplatin-sensitive and-resistant cell lines were also investigated.Results:High ABCA1 mRNA and protein expression was found to be significantly associated with poor patient outcome.ABCA1 mRNA and protein levels were significantly increased in ovarian cancer cell lines(OVCAR-5 CBPR and CaOV3 CBPR)with acquired carboplatin resistance.ABCA1 mRNA was significantly increased in primary HGSOC cells obtained from patients with acquired chemotherapy resistance.Apabetalone treatment reduced ABCA1 protein expression and increased the sensitivity of both parental and carboplatin-resistant ovarian cancer cells to carboplatin.Conclusion: These results suggest that inhibiting ABCA1 transporter may be useful in overcoming acquired chemotherapy resistance and improving outcome for patients with HGSOC.
文摘卵巢癌是妇科常见的恶性肿瘤之一,国际癌症研究机构(International Agency for Research On cancer,IARC)发布的对185个国家、36种癌症的发病率和死亡率预估报告显示,2018年,全球约有295414例卵巢癌新发病例及184799例死亡病例[1]。发表在《柳叶刀》的癌症生存趋势全球监测报告(CONCORD-3),对2000—2014年期间来自71个国家的37513025例恶性肿瘤患者的资料进行了统计分析发现,卵巢癌患者的年龄标准化5年生存率在30%~50%之间,较1995—1999年并无显著升高。而于2010—2014年间确诊为乳腺癌的女性,其5年生存率已接近90%[2]。
