Malkiel A. Cohen scite author profile

SUMMARY There is considerable evidence that chromosome structure plays important roles in gene control, but we have limited understanding of the proteins that contribute to structural interactions between gene promoters and their enhancer elements. Large DNA loops that encompass genes and their regulatory elements depend on CTCF-CTCF interactions, but most enhancer-promoter interactions do not employ this structural protein. Here, we show that the ubiquitously expressed transcription factor Yin Yang 1 (YY1) contributes to enhancer-promoter structural interactions in a manner analogous to DNA interactions mediated by CTCF. YY1 binds to active enhancers and promoter-proximal elements and forms dimers that facilitate the interaction of these DNA elements. Deletion of YY1 binding sites or depletion of YY1 protein disrupts enhancer-promoter looping and gene expression. We propose that YY1-mediated enhancer-promoter interactions are a general feature of mammalian gene control.

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Molecular Criteria for Defining the Naive Human Pluripotent State

Theunissen

et al. 2016

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SummaryRecent studies have aimed to convert cultured human pluripotent cells to a naive state, but it remains unclear to what extent the resulting cells recapitulate in vivo naive pluripotency. Here we propose a set of molecular criteria for evaluating the naive human pluripotent state by comparing it to the human embryo. We show that transcription of transposable elements provides a sensitive measure of the concordance between pluripotent stem cells and early human development. We also show that induction of the naive state is accompanied by genome-wide DNA hypomethylation, which is reversible except at imprinted genes, and that the X chromosome status resembles that of the human preimplantation embryo. However, we did not see efficient incorporation of naive human cells into mouse embryos. Overall, the different naive conditions we tested showed varied relationships to human embryonic states based on molecular criteria, providing a backdrop for future analysis of naive human pluripotency.

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Directed Differentiation of Human Embryonic Stem Cells into Functional Retinal Pigment Epithelium Cells

et al. 2009

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Dysfunction and loss of retinal pigment epithelium (RPE) leads to degeneration of photoreceptors in age-related macular degeneration and subtypes of retinitis pigmentosa. Human embryonic stem cells (hESCs) may serve as an unlimited source of RPE cells for transplantation in these blinding conditions. Here we show the directed differentiation of hESCs toward an RPE fate under defined culture conditions. We demonstrate that nicotinamide promotes the differentiation of hESCs to neural and subsequently to RPE fate. In the presence of nicotinamide, factors from the TGF-beta superfamily, which presumably pattern RPE development during embryogenesis, further direct RPE differentiation. The hESC-derived pigmented cells exhibit the morphology, marker expression, and function of authentic RPE and rescue retinal structure and function after transplantation to an animal model of retinal degeneration caused by RPE dysfunction. These results are an important step toward the future use of hESCs to replenish RPE in blinding diseases.

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Impaired Autophagy in the Lipid-Storage Disorder Niemann-Pick Type C1 Disease

et al. 2013

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SUMMARY Autophagy dysfunction has been implicated in misfolded protein accumulation and cellular toxicity in several diseases. Whether alterations in autophagy also contribute to the pathology of lipid storage disorders is not clear. Here we show defective autophagy in Niemann-Pick type C1 (NPC1) disease associated with cholesterol accumulation, where maturation of autophagosomes is impaired due to defective amphisome formation caused by failure in SNARE machinery, whilst the lysosomal proteolytic function remains unaffected. Expression of functional NPC1 protein rescues this defect. Inhibition of autophagy also causes cholesterol accumulation. Compromised autophagy was seen in disease-affected organs of Npc1 mutant mice. Of potential therapeutic relevance is that HP-β-cyclodextrin, which is used for cholesterol depletion treatment, impedes autophagy, whereas stimulating autophagy restores its function independent of amphisome formation. Our data suggest that a low dose of HP-β-cyclodextrin that does not perturb autophagy, coupled with an autophagy inducer, may provide a rational treatment strategy for NPC1 disease.

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The Lamina Propria of Adult Human Oral Mucosa Harbors a Novel Stem Cell Population

et al. 2010

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The highly regenerative capacity of the human adult oral mucosa suggests the existence of a robust stem cell (SC) population in its lamina propria (OMLP). The purpose of this study was to characterize the availability, growth, immunophenotype, and potency of this presumable SC population. Cells positive for the embryonic stem cell transcription factors Oct4 and Sox2 and for p75 formed distinct cord-like structure in the OMLP. Regardless of donor age, trillions of cells, termed human oral mucosa stem cells (hOMSC), 95% of which express mesenchymal stromal cell markers, were simply, and reproducibly produced from a biopsy of 3-4 3 2 3 1 mm 3 . A total of 40-60% of these cells was positive for Oct4, Sox2, and Nanog and 60-80% expressed constitutively neural and neural crest SC markers. hOMSC differentiated in culture into mesodermal (osteoblastic, chondroblastic, and adipocytic), definitive endoderm and ectodermal (neuronal) lineages. Unexpectedly, hOMSC treated with dexamethasone formed tumors consisting of two germ layer-derived tissues when transplanted in severe combined immune deficiency mice. The tumors consisted of tissues produced by neural crest cells during embryogenesis-cartilage, bone, fat, striated muscle, and neural tissue. These results show that the adult OMLP harbors a primitive SC population with a distinct primitive neural-crest like phenotype and identifies the in vivo localization of putative ancestors for this population. This is the first report on ectodermal-and mesodermal-derived mixed tumors formation by a SC population derived from a nonmalignant somatic adult human tissue. STEM CELLS 2010;28:984-995 Disclosure of potential conflicts of interest is found at the end of this article.

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A Systematic Approach to Identify Candidate Transcription Factors that Control Cell Identity

et al. 2015

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SummaryHundreds of transcription factors (TFs) are expressed in each cell type, but cell identity can be induced through the activity of just a small number of core TFs. Systematic identification of these core TFs for a wide variety of cell types is currently lacking and would establish a foundation for understanding the transcriptional control of cell identity in development, disease, and cell-based therapy. Here, we describe a computational approach that generates an atlas of candidate core TFs for a broad spectrum of human cells. The potential impact of the atlas was demonstrated via cellular reprogramming efforts where candidate core TFs proved capable of converting human fibroblasts to retinal pigment epithelial-like cells. These results suggest that candidate core TFs from the atlas will prove a useful starting point for studying transcriptional control of cell identity and reprogramming in many human cell types.

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Derivation, propagation and controlled differentiation of human embryonic stem cells in suspension

Steiner¹,

Khaner²,

Cohen³

et al. 2010

Nat Biotechnol

213

145

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Undifferentiated human embryonic stem cells (hESCs) are currently propagated on a relatively small scale as monolayer colonies. Culture of hESCs as floating aggregates is widely used for induction of differentiation into embryoid bodies. Here we show that hESC lines can be derived from floating inner cell masses in suspension culture conditions that do not involve feeder cells or microcarriers. This culture system supports prolonged propagation of the pluripotent stem cells as floating clusters without their differentiation into embryoid bodies. HESCs cultivated as aggregates in suspension maintain the expression of pluripotency markers and can differentiate into progeny of the three germ layers both in vitro and in vivo. We further show the controlled differentiation of hESC clusters in suspension into neural spheres. These results pave the way for large-scale expansion and controlled differentiation of hESCs in suspension, which would be valuable in basic and applied research.

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The Developmental Potential of iPSCs Is Greatly Influenced by Reprogramming Factor Selection

Buganim¹,

et al. 2014

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Summary Induced pluripotent stem cells (iPSCs) are commonly generated by transduction of Oct4, Sox2, Klf4, and Myc (OSKM) into cells. Although iPSCs are pluripotent, they frequently exhibit high variation in terms of quality, as measured in mice by chimera contribution and tetraploid complementation. Reliably high-quality iPSCs will be needed for future therapeutic applications. Here, we show that one major determinant of iPSC quality is the combination of reprogramming factors used. Based on tetraploid complementation, we found that ectopic expression of Sall4, Nanog, Esrrb, and Lin28 (SNEL) in mouse embryonic fibroblasts (MEFs) generated high-quality iPSCs more efficiently than other combinations of factors including OSKM. Although differentially methylated regions, transcript number of master regulators, establishment of specific superenhancers, and global aneuploidy were comparable between high- and low-quality lines, aberrant gene expression, trisomy of chromosome 8, and abnormal H2A.X deposition were distinguishing features that could potentially also be applicable to human.

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Malkiel A. Cohen

YY1 Is a Structural Regulator of Enhancer-Promoter Loops

Molecular Criteria for Defining the Naive Human Pluripotent State

Directed Differentiation of Human Embryonic Stem Cells into Functional Retinal Pigment Epithelium Cells

Impaired Autophagy in the Lipid-Storage Disorder Niemann-Pick Type C1 Disease

The Lamina Propria of Adult Human Oral Mucosa Harbors a Novel Stem Cell Population

A Systematic Approach to Identify Candidate Transcription Factors that Control Cell Identity

Derivation, propagation and controlled differentiation of human embryonic stem cells in suspension

The Developmental Potential of iPSCs Is Greatly Influenced by Reprogramming Factor Selection

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