技术资料

Chromatin regulation is critical for differentiation and disease. However,features linking the chromatin environment of stem cells with disease remain largely unknown. We explored chromatin accessibility in embryonic and multipotent stem cells and unexpectedly identified widespread chromatin accessibility at repetitive elements. Integrating genomic and biochemical approaches,we demonstrate that these sites of increased accessibility are associated with well-positioned nucleosomes marked by distinct histone modifications. Differentiation is accompanied by chromatin remodeling at repetitive elements associated with altered expression of genes in relevant developmental pathways. Remarkably,we found that the chromatin environment of Ewing sarcoma,a mesenchymally derived tumor,is shared with primary mesenchymal stem cells (MSCs). Accessibility at repetitive elements in MSCs offers a permissive environment that is exploited by the critical oncogene responsible for this cancer. Our data demonstrate that stem cells harbor a unique chromatin landscape characterized by accessibility at repetitive elements,a feature associated with differentiation and oncogenesis. View Publication

A novel cardiomimetic biohybrid material,termed as the human ventricular cardiac anisotropic sheet (hvCAS) is reported. Well-characterized human pluripotent stem-cell-derived ventricular cardiomyocytes are strategically aligned to reproduce key electrophysiological features of native human ventricle,which,along with specific selection criteria,allows for a direct visualization of arrhythmic spiral re-entry and represents a revolutionary tool to assess preclinical drug-induced arrhythmogenicity. View Publication

Obtaining highly purified differentiated cells via directed differentiation from human pluripotent stem cells (hPSCs) is an essential step for their clinical application. Among the various conditions that should be optimized,the precise role and contribution of the extracellular matrix (ECM) during differentiation are relatively unclear. Here,using a short fragment of laminin 411 (LM411-E8),an ECM predominantly expressed in the vascular endothelial basement membrane,we demonstrate that the directed switching of defined ECMs robustly yields highly-purified (textgreater95%) endothelial progenitor cells (PSC-EPCs) without cell sorting from hPSCs in an integrin-laminin axis-dependent manner. Single-cell RNA-seq analysis revealed that LM411-E8 resolved intercellular transcriptional heterogeneity and escorted the progenitor cells to the appropriate differentiation pathway. The PSC-EPCs gave rise to functional endothelial cells both in vivo and in vitro. We therefore propose that sequential switching of defined matrices is an important concept for guiding cells towards desired fate. View Publication

A fundamental impediment to understanding the brain is the availability of inexpensive and robust methods for targeting and manipulating specific neuronal populations. The need to overcome this barrier is pressing because there are considerable anatomical,physiological,cognitive and behavioral differences between mice and higher mammalian species in which it is difficult to specifically target and manipulate genetically defined functional cell types. In particular,it is unclear the degree to which insights from mouse models can shed light on the neural mechanisms that mediate cognitive functions in higher species,including humans. Here we describe a novel recombinant adeno-associated virus that restricts gene expression to GABAergic interneurons within the telencephalon. We demonstrate that the viral expression is specific and robust,allowing for morphological visualization,activity monitoring and functional manipulation of interneurons in both mice and non-genetically tractable species,thus opening the possibility to study GABAergic function in virtually any vertebrate species. View Publication

In the past decade,tissue microarray (TMA) technology has evolved as an innovative tool for high-throughput proteomics analysis and mainly for biomarker validation. Similarly,enormous amount of data can be obtained from the cell line macroarray (CLMA) technology,which developed from the TMA using formalin-fixed,paraffin-embedded cell pellets. Here,we applied CLMA technology in stem cell research and in particular to identify bona fide neogenerated human induced pluripotent stem cell (hiPSC) clones suitable for down the line differentiation. All hiPSC protocols generate tens of clones,which need to be tested to determine genetically stable cell lines suitable for differentiation. Screening methods generally rely on fluorescence-activated cell sorting isolation and coverslip cell growth followed by immunofluorescence; these techniques could be cumbersome. Here,we show the application of CLMA to identify neogenerated pluripotent cell colonies and neuronal differentiated cell products. We also propose the use of the automated image analyzer,TissueQuest,as a reliable tool to quickly select the best clones,based upon the level of expression of multiple pluripotent biomarkers. View Publication

Fibrodysplasia ossificans progressiva (FOP) patients carry a missense mutation in ACVR1 [617G textgreater A (R206H)] that leads to hyperactivation of BMP-SMAD signaling. Contrary to a previous study,here we show that FOP fibroblasts showed an increased efficiency of induced pluripotent stem cell (iPSC) generation. This positive effect was attenuated by inhibitors of BMP-SMAD signaling (Dorsomorphin or LDN1931890) or transducing inhibitory SMADs (SMAD6 or SMAD7). In normal fibroblasts,the efficiency of iPSC generation was enhanced by transducing mutant ACVR1 (617G textgreater A) or SMAD1 or adding BMP4 protein at early times during the reprogramming. In contrast,adding BMP4 at later times decreased iPSC generation. ID genes,transcriptional targets of BMP-SMAD signaling,were critical for iPSC generation. The BMP-SMAD-ID signaling axis suppressed p16/INK4A-mediated cell senescence,a major barrier to reprogramming. These results using patient cells carrying the ACVR1 R206H mutation reveal how cellular signaling and gene expression change during the reprogramming processes. View Publication

Corneal diseases such as keratoconus represent a relatively common disorder in the human population. However,treatment is restricted to corneal transplantation,which only occurs in the most advanced cases. Cell based therapies may offer an alternative approach given that the eye is amenable to such treatments and corneal diseases like keratoconus have been associated specifically with the death of corneal keratocytes. The ability to generate corneal keratocytes in vitro may enable a cell-based therapy to treat patients with keratoconus. Human induced pluripotent stem cells (hiPSCs) offer an abundant supply of cells from which any cell in the body can be derived. In the present study,hiPSCs were successfully differentiated into neural crest cells (NCCs),the embryonic precursor to keratocytes,and then cultured on cadaveric corneal tissue to promote keratocyte differentiation. The hiPSC-derived NCCs were found to migrate into the corneal stroma where they acquired a keratocyte-like morphology and an expression profile similar to corneal keratocytes in vivo. These results indicate that hiPSCs can be used to generate corneal keratocytes in vitro and lay the foundation for using these cells in cornea cell-based therapies. View Publication

Hypoplastic left heart syndrome (HLHS) is a clinically and anatomically severe form of congenital heart disease (CHD). Although prior studies suggest that HLHS has a complex genetic inheritance,its etiology remains largely unknown. The goal of this study was to characterize a risk gene in HLHS and its effect on HLHS etiology and outcome. We performed next-generation sequencing on a multigenerational family with a high prevalence of CHD/HLHS,identifying a rare variant in the α-myosin heavy chain (MYH6) gene. A case-control study of 190 unrelated HLHS subjects was then performed and compared with the 1000 Genomes Project. Damaging MYH6 variants,including novel,missense,in-frame deletion,premature stop,de novo,and compound heterozygous variants,were significantly enriched in HLHS cases (P textless 1 × 10(-5)). Clinical outcomes analysis showed reduced transplant-free survival in HLHS subjects with damaging MYH6 variants (P textless 1 × 10(-2)). Transcriptome and protein expression analyses with cardiac tissue revealed differential expression of cardiac contractility genes,notably upregulation of the β-myosin heavy chain (MYH7) gene in subjects with MYH6 variants (P textless 1 × 10(-3)). We subsequently used patient-specific induced pluripotent stem cells (iPSCs) to model HLHS in vitro. Early stages of in vitro cardiomyogenesis in iPSCs derived from two unrelated HLHS families mimicked the increased expression of MYH7 observed in vivo (P textless 1 × 10(-2)),while revealing defective cardiomyogenic differentiation. Rare,damaging variants in MYH6 are enriched in HLHS,affect molecular expression of contractility genes,and are predictive of poor outcome. These findings indicate that the etiology of MYH6-associated HLHS can be informed using iPSCs and suggest utility in future clinical applications. View Publication

Peripheral blood was collected from a clinically characterized female Kleefstra syndrome patient with a heterozygous,de novo,premature termination codon (PTC) mutation (NM024757.4(EHMT1):c.3413GtextgreaterA; p.Trp1138Ter). Peripheral blood mononuclear cells (PBMCs) were reprogrammed with the human OSKM transcription factors using the Sendai-virus (SeV) delivery system. The pluripotency of transgene-free iPSC line was verified by the expression of pluripotency-associated markers and by in vitro spontaneous differentiation towards the 3 germ layers. Furthermore,the iPSC line showed normal karyotype. Our model might offer a good platform to study the pathomechanism of Kleefstra syndrome,also for drug testing,early biomarker discovery and gene therapy studies. View Publication

Peripheral blood was collected from a 39-year-old unaffected female carrier of an X-linked recessive mutation of Iduronate 2-sulfatase gene (NM000202.7(IDS):c.85CtextgreaterT) causing MPS II (OMIM 309900). Peripheral blood mononuclear cells (PBMCs) were reprogrammed by lentiviral delivery of a self-silencing hOKSM polycistronic vector. The pluripotency of iPSC line was confirmed by the expression of pluripotency-associated markers and in vitro spontaneous differentiation towards the 3 germ layers. The iPSC showed normal karyotype. The line offers a good platform to study MPS II pathophysiology,for drug testing,early biomarker discovery and gene therapy studies. View Publication

Peripheral blood was collected from a 1-year-old male patient with an X-linked recessive mutation of Iduronate 2-sulfatase (IDS) gene (NM000202.7(IDS):c.85CtextgreaterT) causing MPS II (OMIM 309900). Peripheral blood mononuclear cells (PBMCs) were reprogrammed by lentiviral delivery of a self-silencing hOKSM polycistronic vector. The pluripotency of the iPSC line was confirmed by the expression of pluripotency-associated markers and in vitro spontaneous differentiation towards the 3 germ layers. The iPSC line showed normal karyotype. The cell line offers a good platform to study MPS II pathophysiology,for drug testing,early biomarker discovery and gene therapy studies. View Publication

OBJECTIVE To elucidate the genetic background of a patient with neonatal-onset multisystem inflammatory disease (NOMID) with no NLRP3 mutation. METHODS A Japanese male child diagnosed as having NOMID was studied. The patient did not have any NLRP3 mutation,even as low-frequency mosaicism. We performed whole-exome sequencing on the patient and his parents. Induced pluripotent stem cells (iPSCs) were established from the patient's fibroblasts. The iPSCs were then differentiated into monocyte lineage to evaluate the cytokine profile. RESULTS We established multiple iPSC clones from a patient with NOMID and incidentally found that the phenotypes of monocytes from iPSC clones were heterogeneous and could be grouped into disease and normal phenotypes. Because each iPSC clone was derived from a single somatic cell,we hypothesized that the patient had somatic mosaicism of an interleukin-1β-related gene. Whole-exome sequencing of both representative iPSC clones and the patient's blood revealed a novel heterozygous NLRC4 mutation,p.T177A (c.529AtextgreaterG),as a specific mutation in diseased iPSC clones. Knockout of the NLRC4 gene using the clustered regularly interspaced short palindromic repeat/Cas9 system in a mutant iPSC clone abrogated the pathogenic phenotype. CONCLUSION Our findings indicate that the patient has somatic mosaicism of a novel NLRC4 mutation. To our knowledge,this is the first case showing that somatic mutation of NLRC4 causes autoinflammatory symptoms compatible with NOMID. The present study demonstrates the significance of prospective genetic screening combined with iPSC-based phenotype dissection for individualized diagnoses. View Publication