技术资料

Success in the differentiating human embryonic stem cells (hESCs) into insulin-secreting β cells raises new hopes for diabetes treatment. In this work,we demonstrated the feasibility of developing islet organoids from hESCs within biomimetic 3D scaffolds. We showed that such a 3D microenvironment is critical to the generation of pancreatic endoderm and endocrine from hESCs. The organoids formed consisted of pancreatic α,β,δ,and pancreatic polypeptide (PP) cells. A high-level co-expression of PDX1,NKX6.1,and NGN3 in these cells suggests the characteristics of pancreatic β cells. More importantly,most insulin-secreting cells generated did not express glucagon,somatostatin,or PP. The expression of mature β cell marker genes such as Pdx1,Ngn3,Insulin,MafA,and Glut2 was detected in these 3D-induced cell clusters. A high-level expression of C-peptide confirmed the de novo endogenous insulin production in these 3D induced cells. Insulin-secretory granules,an indication of β cell maturity,were detected in these cells as well. Glucose challenging experiments suggested that these cells are sensitive to glucose levels due to their elevated maturity. Exposing the cells to a high concentration of glucose induced a sharp increase in insulin secretion. View Publication

Pentraxin-2 (PTX-2),also known as serum amyloid P component (SAP/APCS),is a constitutive,antiinflammatory,innate immune plasma protein whose circulating level is decreased in chronic human fibrotic diseases. Here we show that recombinant human PTX-2 (rhPTX-2) retards progression of chronic kidney disease in Col4a3 mutant mice with Alport syndrome,reducing blood markers of kidney failure,enhancing lifespan by 20%,and improving histological signs of disease. Exogenously delivered rhPTX-2 was detected in macrophages but also in tubular epithelial cells,where it counteracted macrophage activation and was cytoprotective for the epithelium. Computational analysis of genes regulated by rhPTX-2 identified the transcriptional regulator c-Jun along with its activator protein-1 (AP-1) binding partners as a central target for the function of rhPTX-2. Accordingly,PTX-2 attenuates c-Jun and AP-1 activity,and reduces expression of AP-1-dependent inflammatory genes in both monocytes and epithelium. Our studies therefore identify rhPTX-2 as a potential therapy for chronic fibrotic disease of the kidney and an important inhibitor of pathological c-Jun signaling in this setting. View Publication

Amniogenesis-the development of amnion-is a critical developmental milestone for early human embryogenesis and successful pregnancy. However,human amniogenesis is poorly understood due to limited accessibility to peri-implantation embryos and a lack of in vitro models. Here we report an efficient biomaterial system to generate human amnion-like tissue in vitro through self-organized development of human pluripotent stem cells (hPSCs) in a bioengineered niche mimicking the in vivo implantation environment. We show that biophysical niche factors act as a switch to toggle hPSC self-renewal versus amniogenesis under self-renewal-permissive biochemical conditions. We identify a unique molecular signature of hPSC-derived amnion-like cells and show that endogenously activated BMP-SMAD signalling is required for the amnion-like tissue development by hPSCs. This study unveils the self-organizing and mechanosensitive nature of human amniogenesis and establishes the first hPSC-based model for investigating peri-implantation human amnion development,thereby helping advance human embryology and reproductive medicine. View Publication

Induced pluripotent stem cells (iPSCs) are being pursued as a source of cells for autologous therapies,many of which will be aimed at aged patients. To explore the impact of age on iPSC quality,we produced iPSCs from blood cells of 16 donors aged 21-100. We find that iPSCs from older donors retain an epigenetic signature of age,which can be reduced through passaging. Clonal expansion via reprogramming also enables the discovery of somatic mutations present in individual donor cells,which are missed by bulk sequencing methods. We show that exomic mutations in iPSCs increase linearly with age,and all iPSC lines analyzed carry at least one gene-disrupting mutation,several of which have been associated with cancer or dysfunction. Unexpectedly,elderly donors (textgreater90 yrs) harbor fewer mutations than predicted,likely due to a contracted blood progenitor pool. These studies establish that donor age is associated with an increased risk of abnormalities in iPSCs and will inform clinical development of reprogramming technology. View Publication

The chromatin landscape and cellular metabolism both contribute to cell fate determination,but their interplay remains poorly understood. Using genome-wide siRNA screening,we have identified prohibitin (PHB) as an essential factor in self-renewal of human embryonic stem cells (hESCs). Mechanistically,PHB forms protein complexes with HIRA,a histone H3.3 chaperone,and stabilizes the protein levels of HIRA complex components. Like PHB,HIRA is required for hESC self-renewal. PHB and HIRA act together to control global deposition of histone H3.3 and gene expression in hESCs. Of particular note,PHB and HIRA regulate the chromatin architecture at the promoters of isocitrate dehydrogenase genes to promote transcription and,thus,production of α-ketoglutarate,a key metabolite in the regulation of ESC fate. Our study shows that PHB has an unexpected nuclear role in hESCs that is required for self-renewal and that it acts with HIRA in chromatin organization to link epigenetic organization to a metabolic circuit. View Publication

BACKGROUND & AIMS Developmental morphogens play an important role in coordinating the ductular reaction and portal fibrosis occurring in the setting of cholangiopathies. However,little is known about how membrane signaling events in ductular reactive cells (DRCs) are transduced into nuclear transcriptional changes to drive cholangiocyte maturation and matrix deposition. Therefore,the aim of this study was to investigate potential mechanistic links between cell signaling events and epigenetic regulators in DRCs. METHODS Using directed differentiation of induced pluripotent stem cells (iPSC),isolated DRCs,and in vivo models,we examine the mechanisms whereby sonic hedgehog (Shh) overcomes an epigenetic barrier in biliary precursors and promotes both cholangiocyte maturation and deposition of fibronectin (FN). RESULTS We demonstrate,for the first time,that Gli1 influences the differentiation state and fibrogenic capacity of iPSC-derived hepatic progenitors and isolated DRCs. We outline a novel pathway wherein Shh-mediated Gli1 binding in key cholangiocyte gene promoters overcomes an epigenetic barrier conferred by the polycomb protein,enhancer of zeste homolog 2 (EZH2) and initiates the transcriptional program of cholangiocyte maturation. We also define previously unknown functional Gli1 binding sites in the promoters of cytokeratin (CK)7,CK19,and FN. Our in vivo results show that EZH2 KO mice fed the choline-deficient,ethanolamine supplemented (CDE) diet have an exaggerated cholangiocyte expansion associated with more robust ductular reaction and increased peri-portal fibrosis. CONCLUSION We conclude that Shh/Gli1 signaling plays an integral role in cholangiocyte maturation in vitro by overcoming an EZH2-dependent epigenetic barrier and this mechanism also promotes biliary expansion in vivo. View Publication

In vitro differentiation of human pluripotent stem cells (hPSCs) recapitulates early aspects of human embryogenesis,but the underlying processes are poorly understood and controlled. Here we show that modulating the bulk cell density (BCD: cell number per culture volume) deterministically alters anteroposterior patterning of primitive streak (PS)-like priming. The BCD in conjunction with the chemical WNT pathway activator CHIR99021 results in distinct paracrine microenvironments codifying hPSCs towards definitive endoderm,precardiac or presomitic mesoderm within the first 24 h of differentiation,respectively. Global gene expression and secretome analysis reveals that TGFß superfamily members,antagonist of Nodal signalling LEFTY1 and CER1,are paracrine determinants restricting PS progression. These data result in a tangible model disclosing how hPSC-released factors deflect CHIR99021-induced lineage commitment over time. By demonstrating a decisive,functional role of the BCD,we show its utility as a method to control lineage-specific differentiation. Furthermore,these findings have profound consequences for inter-experimental comparability,reproducibility,bioprocess optimization and scale-up. View Publication

The gene of ATP-binding cassette subfamily C member 8 (Abcc8) is cytogenetically located at 11p15.1 and encodes the sulfonylurea receptor (SUR1). SUR1 is a subunit of ATP-sensitive potassium channel (KAPT) in the β-cell regulating insulin secretion. Mutations of ABCC8 are responsible for congenital hyperinsulinism (CHI). Here we reported that an Abcc8 heterozygous mutant cell line was generated by CRISPR/Cas9 technique with 1bp insertion resulting in abnormal splicing on human embryonic stem cell line H1. The phenotypic characteristics of this cell line reveal defective KATP channel and diazoxide-responsive that provides ideal model for molecular pathology research and drug screening for CHI. View Publication

Human embryonic stem cell (hESC) line chHES-468 was derived from abnormal blastocyst donated by polycystic kidney syndrome (PKD) patient after preimplantation genetic diagnosis (PGD) treatment. DNA sequencing analysis confirmed that chHES-468 cell line carried a heterozygous mutation,c.1052610527delAG,of PKD1. Characteristic tests proved that the chHES-468 cell line presented typical markers of pluripotency and had the capability to form the three germ layers both in vitro and in vivo. View Publication

Human embryonic stem cell (hESC) line chHES-480 was derived from abnormal blastocyst diagnosed with adrenoleukodystrophy (ALD) after preimplantation genetic diagnosis (PGD) treatment. DNA sequencing analysis confirmed that chHES-480 cell line carried a hemizygous missense mutation c.1825GtextgreaterA(p.Glu609Lys) of ABCD1 gene. Characteristic tests proved that the chHES-480 cell line presented typical markers of pluripotency and had the capability to form the three germ layers both in vitro and in vivo. View Publication

Spinocerebellar ataxia type3 (SCA3) is an autosomal dominant neurodegenerative disorder. Human embryonic stem cell line chHES-472 was derived from abnormal embryo donated by SCA3 patient after preimplantation genetic diagnosis (PGD) treatment. This cell line had a normal karyotype and retained the disease-causing mutant in ATXN3 gene. Characteristic tests proved that the embryonic stem cell line presented typical markers of pluripotency and had the capability to form the three germlayers in vivo. View Publication

Fibroblasts from a male patient with compound heterozygous variants in the tyrosine hydroxylase gene (TH; OMIM: 191290; c.[385-CtextgreaterT]; [692-GtextgreaterC]/p.[R129*]; [R231P]),the rate-limiting enzyme for dopamine synthesis,were reprogrammed to iPSCs using episomal reprogramming delivering the reprogramming factors Oct3/4,Sox2,L-Myc,Lin28,Klf4 and p53 shRNA Okita et al. (2011). Pluripotency of TH-1 iPSC was verified by immunohistochemistry and RT-PCR analysis. Cells exhibited a normal karyotype and differentiated spontaneously into the 3 germ layers in vitro. TH-1 iPSC represents the first model system to study the pathomechanism of this rare metabolic disease and provides a useful tool for drug testing. View Publication