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The transcription factor Six1a plays an essential role in the craniofacial myogenesis of zebrafish 总被引:1,自引:0,他引:1
Cheng-Yung Lin 《Developmental biology》2009,331(2):152-2415
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Gayraud-Morel B Chrétien F Flamant P Gomès D Zammit PS Tajbakhsh S 《Developmental biology》2007,312(1):13-28
The myogenic determination genes Myf5, Myod and Mrf4 direct skeletal muscle cell fate prenatally. In adult myogenesis, Myod has been shown to regulate myoblast differentiation, however, our understanding of satellite cell regulation is incomplete since the roles of Myf5 and Mrf4 had not been clearly defined. Here we examine the function of Myf5 and Mrf4 in the adult using recently generated alleles. Mrf4 is not expressed in normal or Myf5 null satellite cells and myoblasts, therefore excluding a role for this determination gene in adult muscle progenitors. Skeletal muscles of adult Myf5 null mice exhibit a subtle progressive myopathy. Crucially, adult Myf5 null mice exhibit perturbed muscle regeneration with a significant increase in muscle fibre hypertrophy, delayed differentiation, adipocyte accumulation, and fibrosis after freeze-injury. Satellite cell numbers are not significantly altered in Myf5 null animals and they show a modest impaired proliferation under some conditions in vitro. Mice double mutant for Myf5 and Dystrophin were more severely affected than single mutants, with enhanced necrosis and regeneration. Therefore, we show that Myf5 is a regulator of regenerative myogenesis and homeostasis, with functions distinct from those of Myod and Mrf4. 相似文献
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Differentiation often requires conversion of analogue signals to a stable binary output through positive feedback. Hedgehog (Hh) signalling promotes myogenesis in the vertebrate somite, in part by raising the activity of muscle regulatory factors (MRFs) of the Myod family above a threshold. Hh is known to enhance MRF expression. Here we show that Hh is also essential at a second step that increases Myod protein activity, permitting it to promote Myogenin expression. Hh acts by inducing expression of cdkn1c (p57Kip2) in slow muscle precursor cells, but neither Hh nor Cdkn1c is required for their cell cycle exit. Cdkn1c co-operates with Myod to drive differentiation of several early zebrafish muscle fibre types. Myod in turn up-regulates cdkn1c, thereby providing a positive feedback loop that switches myogenic cells to terminal differentiation. 相似文献
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Tajbakhsh S 《Experimental cell research》2005,306(2):364-372
Skeletal muscle provides a unique paradigm for studying stem to differentiated cell transitions, as well as the acquisition of cellular identity. Embryological and genetic studies over the last decades have unveiled key signaling pathways and regulatory genes which are involved in this process. In the adult, regeneration from fiber-associated satellite cells as well as non-muscle cells have opened the perspective for cell therapy studies. Paradoxically, however, the lineage has remained largely elusive. Recent studies have provided clues regarding the cellular organization in this lineage. Furthermore, the complexity of the genetic networks regulating global and local myogenic programs can be correlated with location and lineage. Finally, prenatal and postnatal developmental strategies have similarities and differences which will also be highlighted. 相似文献
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