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1.
Proc Natl Acad Sci U S A ; 114(45): E9579-E9588, 2017 11 07.
Artigo em Inglês | MEDLINE | ID: mdl-29078328

RESUMO

To elucidate the molecular basis of BMP4-induced differentiation of human pluripotent stem cells (PSCs) toward progeny with trophectoderm characteristics, we produced transcriptome, epigenome H3K4me3, H3K27me3, and CpG methylation maps of trophoblast progenitors, purified using the surface marker APA. We combined them with the temporally resolved transcriptome of the preprogenitor phase and of single APA+ cells. This revealed a circuit of bivalent TFAP2A, TFAP2C, GATA2, and GATA3 transcription factors, coined collectively the "trophectoderm four" (TEtra), which are also present in human trophectoderm in vivo. At the onset of differentiation, the TEtra factors occupy multiple sites in epigenetically inactive placental genes and in OCT4 Functional manipulation of GATA3 and TFAP2A indicated that they directly couple trophoblast-specific gene induction with suppression of pluripotency. In accordance, knocking down GATA3 in primate embryos resulted in a failure to form trophectoderm. The discovery of the TEtra circuit indicates how trophectoderm commitment is regulated in human embryogenesis.


Assuntos
Diferenciação Celular/fisiologia , Fator de Transcrição GATA2/metabolismo , Fator de Transcrição GATA3/metabolismo , Placenta/metabolismo , Células-Tronco Pluripotentes/metabolismo , Fator de Transcrição AP-2/metabolismo , Animais , Proteína Morfogenética Óssea 4/metabolismo , Linhagem Celular , Desenvolvimento Embrionário/fisiologia , Células-Tronco Embrionárias/metabolismo , Feminino , Humanos , Macaca mulatta , Gravidez , Transcriptoma/fisiologia , Trofoblastos/metabolismo
2.
Dev Biol ; 352(2): 228-42, 2011 Apr 15.
Artigo em Inglês | MEDLINE | ID: mdl-21256839

RESUMO

In Drosophila, like in humans, Dystrophin Glycoprotein Complex (DGC) deficiencies cause a life span shortening disease, associated with muscle dysfunction. We performed the first in vivo genetic interaction screen in ageing dystrophic muscles and identified genes that have not been shown before to have a role in the development of muscular dystrophy and interact with dystrophin and/or dystroglycan. Mutations in many of the found interacting genes cause age-dependent morphological and heat-induced physiological defects in muscles, suggesting their importance in the tissue. Majority of them is phylogenetically conserved and implicated in human disorders, mainly tumors and myopathies. Functionally they can be divided into three main categories: proteins involved in communication between muscle and neuron, and interestingly, in mechanical and cellular stress response pathways. Our data show that stress induces muscle degeneration and accelerates age-dependent muscular dystrophy. Dystrophic muscles are already compromised; and as a consequence they are less adaptive and more sensitive to energetic stress and to changes in the ambient temperature. However, only dystroglycan, but not dystrophin deficiency causes extreme myodegeneration induced by energetic stress suggesting that dystroglycan might be a component of the low-energy pathway and act as a transducer of energetic stress in normal and dystrophic muscles.


Assuntos
Proteínas de Drosophila/genética , Proteínas de Drosophila/metabolismo , Drosophila/genética , Drosophila/metabolismo , Distroglicanas/genética , Distroglicanas/metabolismo , Distrofina/genética , Distrofina/metabolismo , Distrofia Muscular Animal/genética , Distrofia Muscular Animal/metabolismo , Estresse Fisiológico , Animais , Sequência de Bases , Primers do DNA/genética , Modelos Animais de Doenças , Distroglicanas/antagonistas & inibidores , Distroglicanas/deficiência , Distrofina/antagonistas & inibidores , Distrofina/deficiência , Feminino , Genes de Insetos , Humanos , Masculino , Células Musculares/metabolismo , Distrofia Muscular Animal/etiologia , Mutação , Interferência de RNA , Transdução de Sinais
3.
Sci Rep ; 12(1): 3100, 2022 03 08.
Artigo em Inglês | MEDLINE | ID: mdl-35260583

RESUMO

The northern white rhinoceros (NWR) is probably the earth's most endangered mammal. To rescue the functionally extinct species, we aim to employ induced pluripotent stem cells (iPSCs) to generate gametes and subsequently embryos in vitro. To elucidate the regulation of pluripotency and differentiation of NWR PSCs, we generated iPSCs from a deceased NWR female using episomal reprogramming, and observed surprising similarities to human PSCs. NWR iPSCs exhibit a broad differentiation potency into the three germ layers and trophoblast, and acquire a naïve-like state of pluripotency, which is pivotal to differentiate PSCs into primordial germ cells (PGCs). Naïve culturing conditions induced a similar expression profile of pluripotency related genes in NWR iPSCs and human ESCs. Furthermore, naïve-like NWR iPSCs displayed increased expression of naïve and PGC marker genes, and a higher integration propensity into developing mouse embryos. As the conversion process was aided by ectopic BCL2 expression, and we observed integration of reprogramming factors, the NWR iPSCs presented here are unsuitable for gamete production. However, the gained insights into the developmental potential of both primed and naïve-like NWR iPSCs are fundamental for in future PGC-specification in order to rescue the species from extinction using cryopreserved somatic cells.


Assuntos
Células-Tronco Pluripotentes Induzidas , Animais , Diferenciação Celular/genética , Feminino , Células Germinativas/metabolismo , Camadas Germinativas , Camundongos , Perissodáctilos/genética
4.
BMC Neurosci ; 12: 93, 2011 Sep 26.
Artigo em Inglês | MEDLINE | ID: mdl-21943192

RESUMO

BACKGROUND: The Dystrophin Glycoprotein Complex (DGC) is a large multi-component complex that is well known for its function in muscle tissue. When the main components of the DGC, Dystrophin (Dys) and Dystroglycan (Dg) are affected cognitive impairment and mental retardation in addition to muscle degeneration can occur. Previously we performed an array of genetic screens using a Drosophila model for muscular dystrophy in order to find novel DGC interactors aiming to elucidate the signaling role(s) in which the complex is involved. Since the function of the DGC in the brain and nervous system has not been fully defined, we have here continued to analyze the DGC modifiers' function in the developing Drosophila brain and eye. RESULTS: Given that disruption of Dys and Dg leads to improper photoreceptor axon projections into the lamina and eye neuron elongation defects during development, we have determined the function of previously screened components and their genetic interaction with the DGC in this tissue. Our study first found that mutations in chif, CG34400, Nrk, Lis1, capt and Cam cause improper axon path-finding and loss of SP2353, Grh, Nrk, capt, CG34400, vimar, Lis1 and Cam cause shortened rhabdomere lengths. We determined that Nrk, mbl, capt and Cam genetically interact with Dys and/or Dg in these processes. It is notable that most of the neuronal DGC interacting components encountered are involved in regulation of actin dynamics. CONCLUSIONS: Our data indicate possible DGC involvement in the process of cytoskeletal remodeling in neurons. The identification of new components that interact with the DGC not only helps to dissect the mechanism of axon guidance and eye neuron differentiation but also provides a great opportunity for understanding the signaling mechanisms by which the cell surface receptor Dg communicates via Dys with the actin cytoskeleton.


Assuntos
Axônios/metabolismo , Proteínas de Drosophila/metabolismo , Distroglicanas/metabolismo , Distrofina/metabolismo , Células Fotorreceptoras de Invertebrados/metabolismo , Animais , Axônios/patologia , Axônios/fisiologia , Proteínas de Drosophila/genética , Proteínas de Drosophila/fisiologia , Drosophila melanogaster , Distroglicanas/genética , Distroglicanas/fisiologia , Distrofina/genética , Distrofina/fisiologia , Regulação da Expressão Gênica no Desenvolvimento/fisiologia , Distrofias Musculares/genética , Distrofias Musculares/metabolismo , Distrofias Musculares/patologia , Mutação , Células Fotorreceptoras de Invertebrados/patologia , Células Fotorreceptoras de Invertebrados/fisiologia , Transdução de Sinais/genética , Transdução de Sinais/fisiologia
5.
Stem Cell Reports ; 12(5): 861-868, 2019 05 14.
Artigo em Inglês | MEDLINE | ID: mdl-31006630

RESUMO

The neural crest (NC) gives rise to a multitude of fetal tissues, and its misregulation is implicated in congenital malformations. Here, we investigated molecular mechanisms pertaining to NC-related symptoms in Bohring-Opitz syndrome (BOS), a developmental disorder linked to mutations in the Polycomb group factor Additional sex combs-like 1 (ASXL1). Genetically edited human pluripotent stem cell lines that were differentiated to NC progenitors and then xenotransplanted into chicken embryos demonstrated an impairment of NC delamination and emigration. Molecular analysis showed that ASXL1 mutations correlated with reduced activation of the transcription factor ZIC1 and the NC gene regulatory network. These findings were supported by differentiation experiments using BOS patient-derived induced pluripotent stem cell lines. Expression of truncated ASXL1 isoforms (amino acids 1-900) recapitulated the NC phenotypes in vitro and in ovo, raising the possibility that truncated ASXL1 variants contribute to BOS pathology. Collectively, we expand the understanding of truncated ASXL1 in BOS and in the human NC.


Assuntos
Diferenciação Celular/genética , Craniossinostoses/genética , Perfilação da Expressão Gênica/métodos , Deficiência Intelectual/genética , Mutação , Crista Neural/metabolismo , Células-Tronco Pluripotentes/metabolismo , Proteínas Repressoras/genética , Animais , Linhagem Celular , Células Cultivadas , Embrião de Galinha , Craniossinostoses/metabolismo , Craniossinostoses/patologia , Redes Reguladoras de Genes , Células-Tronco Embrionárias Humanas/citologia , Células-Tronco Embrionárias Humanas/metabolismo , Humanos , Células-Tronco Pluripotentes Induzidas/citologia , Células-Tronco Pluripotentes Induzidas/metabolismo , Deficiência Intelectual/metabolismo , Deficiência Intelectual/patologia , Crista Neural/citologia , Células-Tronco Pluripotentes/citologia , Proteínas Repressoras/metabolismo , Transplante Heterólogo
6.
J Vis Exp ; (46)2010 Dec 27.
Artigo em Inglês | MEDLINE | ID: mdl-21206479

RESUMO

The molecular characterization of muscular dystrophies and myopathies in humans has revealed the complexity of muscle disease and genetic analysis of muscle specification, formation and function in model systems has provided valuable insight into muscle physiology. Therefore, identifying and characterizing molecular mechanisms that underlie muscle damage is critical. The structure of adult Drosophila multi-fiber muscles resemble vertebrate striated muscles (1) and the genetic tractability of Drosophila has made it a great system to analyze dystrophic muscle morphology and characterize the processes affecting muscular function in ageing adult flies (2). Here we present the histological technique for preparing paraffin-embedded and frozen sections of Drosophila thoracic muscles. These preparations allow for the tissue to be stained with classical histological stains and labeled with protein detecting dyes, and specifically cryosections are ideal for immunohistochemical detection of proteins in intact muscles. This allows for analysis of muscle tissue structure, identification of morphological defects, and detection of the expression pattern for muscle/neuron-specific proteins in Drosophila adult muscles. These techniques can also be slightly modified for sectioning of other body parts.


Assuntos
Drosophila/anatomia & histologia , Músculo Esquelético/anatomia & histologia , Inclusão em Parafina/métodos , Animais , Drosophila/fisiologia , Músculo Esquelético/fisiologia , Coloração e Rotulagem/métodos , Tórax/anatomia & histologia
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