The effective proliferation and differentiation of trophoblast stem cells(TSCs)is indispensable for the development of the placenta,which is the key to maintaining normal fetal growth during pregnancy.Kruppel-like fac...The effective proliferation and differentiation of trophoblast stem cells(TSCs)is indispensable for the development of the placenta,which is the key to maintaining normal fetal growth during pregnancy.Kruppel-like factor 5(Klf5)is implicated in the activation of pluripotency gene expression in embryonic stem cells(ESCs),yet its function in TSCs is poorly understood.Here,we showed that Klf5 knockdown resulted in the downregulation of core TSC-specific genes,consequently causing rapid differentiation of TSCs.Consistently,Klf5-depleted embryos lost the ability to establish TSCs in vitro.At the molecular level,Klf5 preferentially occupied the proximal promoter regions and maintained an open chromatin architecture of key TSC-specific genes.Deprivation of Klf5 impaired the enrichment of p300,a major histone acetyl transferase of H3 lysine 27 acetylation(H3K27ac),and further reduced the occupancy of H3K27ac at promoter regions,leading to decreased transcriptional activity of TSC pluripotency genes.Thus,our findings highlight a novel mechanism of Klf5 in regulating the self-renewal and differentiation of TSCs and provide a reference for understanding placental development and improving pregnancy rates.展开更多
Proper development of the human placenta is of vital importance for a successful pregnancy,and a series of pregnancy complications are considered originating from dysfunctional placentas.Like other organ system develo...Proper development of the human placenta is of vital importance for a successful pregnancy,and a series of pregnancy complications are considered originating from dysfunctional placentas.Like other organ system development,placentation requires large numbers of co-regulators,while the underlying molecular mechanisms orchestrating the placental formation and function are poorly understood.Although we have made many signs of progress in understanding the placental architectures and developments using mouse models,the species-specific differences impede our progress due to the lack of appropriate model systems.In the past few years,major progress has been made by the establishment of novel in-vitro self-renewing stem cell models,as well as identifying the full picture of the cellular organization of the maternal and fetal interface.Providing the tools for the investigation of placentation and reproductive-related regulation mechanism.In this review,we focus on the detailed progress of the human trophoblast stem cells culturing system,and the cellular and molecular terrain at the maternal-fetal interface,respectively,thus providing new insights into placental development.展开更多
Objective:To explore tissue factor(TF)expression and methylation regulation in differentiation of human embryonic stem cells(hESCs)into trophoblast.Methods:Differentiation of hESCs into trophoblast was induced by bone...Objective:To explore tissue factor(TF)expression and methylation regulation in differentiation of human embryonic stem cells(hESCs)into trophoblast.Methods:Differentiation of hESCs into trophoblast was induced by bone morphogenetic protein 4(BMP4).Expression of gene,protein of TF and DNA methylation at different time points during induction process was detected by RTPCT,Western blot,flow cytometry and MSP-PCR method.Results:The expression of mRNA,protein level of TF could be detected during directional differentiation of hESCs to trophoblast cells,semi methylation-semi non methylation expression appeared at TF DNA promoter region,and it showed decreased methylation level and increased non methylation level with formation of trophoblast cell and increased expression of TF.Conclusions:It shows that during differentiation of hESCs into trophoblast,the differential expression of TF is related with DNA methylation level,and it is changed with the methylation or non methylated degree.It provids new platform to furtherly explore the regulation mechanisms of specific expression of tissue factor in the process of the embryonic stem cell development.展开更多
Human embryonic stem cells (hESC) can be induced to differentiate to trophoblast by bone morphogenetic proteins (BMPs) and by aggregation to form embryoid bodies (EB), but there are many differences and controversies ...Human embryonic stem cells (hESC) can be induced to differentiate to trophoblast by bone morphogenetic proteins (BMPs) and by aggregation to form embryoid bodies (EB), but there are many differences and controversies regarding the nature of the differentiated cells. Our goals herein were to determine if BG02 cells form trophoblast-like cells (a) in the presence of BMP4-plus-basic fibroblast growth factor (FGF-2) and (b) upon EB formation, and (c) whether the BMP4 antagonist noggin elicits direct effects on gene expression and hormone production in the cells. Transcriptome profiling of hESC incubated with BMP4/FGF-2 showed a down-regulation of pluripotency-associated genes, an up-regulation of trophoblast-associated genes, and either a down-regulation or no change in gene expression for many markers of the three embryonic germ layers. Yet, there was up-regulation of several genes associated with mesoderm, ectoderm, and endoderm, strongly suggesting that differentiation to trophoblast-like cells under the conditions used does not yield a homogeneous cell type. Several genes, heretofore unreported, were identified that are altered in hESC in response to BMP4-mediated differentiation. The production of human chorionic gonadotropin (hCG), progesterone, and estradiol in the differentiated cells confirmed that trophoblast-like cells were obtained. Gene expression by EB was characterized by an up-regulation of a number of genes associated with trophoblast, ectoderm, endoderm, and mesoderm, and the production of hCG and progesterone confirmed that trophoblast-like cells were formed. These results suggest that, in the presence of FGF-2, BG02 cells respond to BMP4 to yield trophoblast-like cells, which are also obtained upon EB formation. Thus, BMP4-mediated differentiation of hESC represents a viable cell system for studying early developmental events post-implantation;however, up-regulation of non-trophoblast genes suggests a somewhat diverse response to BMP4/FGF-2. Noggin altered the transcription of a limited number of genes but, not surprisingly, did not lead to secretion of hormones.展开更多
基金This work was supported by the National Natural.Science Foundation of China(31970822 and 31902161)the Key Research and Development Program of Hubei Province(2021BBA221 and 2022BCE002)+1 种基金the Fundamental Research Funds for the Central Universities(2662022DKPY001)the Major Project of Hubei Hongshan Laboratory(2021hszdo03)。
文摘The effective proliferation and differentiation of trophoblast stem cells(TSCs)is indispensable for the development of the placenta,which is the key to maintaining normal fetal growth during pregnancy.Kruppel-like factor 5(Klf5)is implicated in the activation of pluripotency gene expression in embryonic stem cells(ESCs),yet its function in TSCs is poorly understood.Here,we showed that Klf5 knockdown resulted in the downregulation of core TSC-specific genes,consequently causing rapid differentiation of TSCs.Consistently,Klf5-depleted embryos lost the ability to establish TSCs in vitro.At the molecular level,Klf5 preferentially occupied the proximal promoter regions and maintained an open chromatin architecture of key TSC-specific genes.Deprivation of Klf5 impaired the enrichment of p300,a major histone acetyl transferase of H3 lysine 27 acetylation(H3K27ac),and further reduced the occupancy of H3K27ac at promoter regions,leading to decreased transcriptional activity of TSC pluripotency genes.Thus,our findings highlight a novel mechanism of Klf5 in regulating the self-renewal and differentiation of TSCs and provide a reference for understanding placental development and improving pregnancy rates.
基金This work was supported in parts by the National Key R&D Program of China(2017YFC1001402 to H.W.,2018YFC1004102 to J.L.)National Natural Science Foundation of China(81490744 to H.W.,31600945 to J.L.and 31701016 to J.W.)+2 种基金Fujian Natural Science Foundation(2017J01071 to J.L.)the Fundamental Research Funds for the Central Universities(20720180041 J.L.)Foundation from Key Laboratory of Reproduction Regulation of NPFPC(2017KF01 to J.L.).The funders had no role in study design,data collection,and analysis,decision to publish,or preparation of the manuscript
文摘Proper development of the human placenta is of vital importance for a successful pregnancy,and a series of pregnancy complications are considered originating from dysfunctional placentas.Like other organ system development,placentation requires large numbers of co-regulators,while the underlying molecular mechanisms orchestrating the placental formation and function are poorly understood.Although we have made many signs of progress in understanding the placental architectures and developments using mouse models,the species-specific differences impede our progress due to the lack of appropriate model systems.In the past few years,major progress has been made by the establishment of novel in-vitro self-renewing stem cell models,as well as identifying the full picture of the cellular organization of the maternal and fetal interface.Providing the tools for the investigation of placentation and reproductive-related regulation mechanism.In this review,we focus on the detailed progress of the human trophoblast stem cells culturing system,and the cellular and molecular terrain at the maternal-fetal interface,respectively,thus providing new insights into placental development.
基金supported by National Natural Science Fund Project(No.81170477)
文摘Objective:To explore tissue factor(TF)expression and methylation regulation in differentiation of human embryonic stem cells(hESCs)into trophoblast.Methods:Differentiation of hESCs into trophoblast was induced by bone morphogenetic protein 4(BMP4).Expression of gene,protein of TF and DNA methylation at different time points during induction process was detected by RTPCT,Western blot,flow cytometry and MSP-PCR method.Results:The expression of mRNA,protein level of TF could be detected during directional differentiation of hESCs to trophoblast cells,semi methylation-semi non methylation expression appeared at TF DNA promoter region,and it showed decreased methylation level and increased non methylation level with formation of trophoblast cell and increased expression of TF.Conclusions:It shows that during differentiation of hESCs into trophoblast,the differential expression of TF is related with DNA methylation level,and it is changed with the methylation or non methylated degree.It provids new platform to furtherly explore the regulation mechanisms of specific expression of tissue factor in the process of the embryonic stem cell development.
文摘Human embryonic stem cells (hESC) can be induced to differentiate to trophoblast by bone morphogenetic proteins (BMPs) and by aggregation to form embryoid bodies (EB), but there are many differences and controversies regarding the nature of the differentiated cells. Our goals herein were to determine if BG02 cells form trophoblast-like cells (a) in the presence of BMP4-plus-basic fibroblast growth factor (FGF-2) and (b) upon EB formation, and (c) whether the BMP4 antagonist noggin elicits direct effects on gene expression and hormone production in the cells. Transcriptome profiling of hESC incubated with BMP4/FGF-2 showed a down-regulation of pluripotency-associated genes, an up-regulation of trophoblast-associated genes, and either a down-regulation or no change in gene expression for many markers of the three embryonic germ layers. Yet, there was up-regulation of several genes associated with mesoderm, ectoderm, and endoderm, strongly suggesting that differentiation to trophoblast-like cells under the conditions used does not yield a homogeneous cell type. Several genes, heretofore unreported, were identified that are altered in hESC in response to BMP4-mediated differentiation. The production of human chorionic gonadotropin (hCG), progesterone, and estradiol in the differentiated cells confirmed that trophoblast-like cells were obtained. Gene expression by EB was characterized by an up-regulation of a number of genes associated with trophoblast, ectoderm, endoderm, and mesoderm, and the production of hCG and progesterone confirmed that trophoblast-like cells were formed. These results suggest that, in the presence of FGF-2, BG02 cells respond to BMP4 to yield trophoblast-like cells, which are also obtained upon EB formation. Thus, BMP4-mediated differentiation of hESC represents a viable cell system for studying early developmental events post-implantation;however, up-regulation of non-trophoblast genes suggests a somewhat diverse response to BMP4/FGF-2. Noggin altered the transcription of a limited number of genes but, not surprisingly, did not lead to secretion of hormones.