骨形态发生蛋白信号传导平衡肌肉卫星细胞后代的增殖与分化。

BMP signaling balances proliferation and differentiation of muscle satellite cell descendants.

作者信息

Friedrichs Melanie, Wirsdöerfer Florian, Flohé Stefanie B, Schneider Sabine, Wuelling Manuela, Vortkamp Andrea

机构信息

Center for Medical Biotechnology, Faculty of Biology, Department of Developmental Biology, University of Duisburg-Essen, D-45117 Essen, Germany.

出版信息

BMC Cell Biol. 2011 Jun 6;12:26. doi: 10.1186/1471-2121-12-26.

DOI:10.1186/1471-2121-12-26

PMID:21645366

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3149017/

Abstract

BACKGROUND

The capacity of muscle to grow or to regenerate after damage is provided by adult stem cells, so called satellite cells, which are located under the basement lamina of each myofiber. Upon activation satellite cells enter the cell cycle, proliferate and differentiate into myoblasts, which fuse to injured myofibers or form new fibers. These processes are tightly controlled by many growth factors.

RESULTS

Here we investigate the role of bone morphogenetic proteins (BMPs) during satellite cell differentiation. Unlike the myogenic C2C12 cell line, primary satellite cells do not differentiate into osteoblasts upon BMP signaling. Instead BMP signaling inhibits myogenic differentiation of primary satellite cells ex vivo. In contrast, inhibition of BMP signaling results in cell cycle exit, followed by enhanced myoblast differentiation and myotube formation. Using an in vivo trauma model we demonstrate that satellite cells respond to BMP signals during the regeneration process. Interestingly, we found the BMP inhibitor Chordin upregulated in primary satellite cell cultures and in regenerating muscles. In both systems Chordin expression follows that of Myogenin, a marker for cells committed to differentiation.

CONCLUSION

Our data indicate that BMP signaling plays a critical role in balancing proliferation and differentiation of activated satellite cells and their descendants. Initially, BMP signals maintain satellite cells descendants in a proliferating state thereby expanding cell numbers. After cells are committed to differentiate they upregulate the expression of the BMP inhibitor Chordin thereby supporting terminal differentiation and myotube formation in a negative feedback mechanism.

摘要

背景

肌肉在损伤后生长或再生的能力由成体干细胞（即所谓的卫星细胞）提供，这些卫星细胞位于每条肌纤维的基膜下方。激活后，卫星细胞进入细胞周期，增殖并分化为成肌细胞，成肌细胞与受损肌纤维融合或形成新的纤维。这些过程受到多种生长因子的严格控制。

结果

在此，我们研究了骨形态发生蛋白（BMPs）在卫星细胞分化过程中的作用。与成肌的C2C12细胞系不同，原代卫星细胞在BMP信号传导时不会分化为成骨细胞。相反，BMP信号传导在体外抑制原代卫星细胞的成肌分化。相比之下，抑制BMP信号传导会导致细胞周期退出，随后成肌细胞分化增强和肌管形成增加。使用体内创伤模型，我们证明卫星细胞在再生过程中对BMP信号有反应。有趣的是，我们发现BMP抑制剂脊索蛋白在原代卫星细胞培养物和再生肌肉中上调。在这两个系统中，脊索蛋白的表达都跟随生肌素（一种致力于分化的细胞标志物）的表达。

结论

我们的数据表明，BMP信号传导在平衡活化卫星细胞及其后代的增殖和分化中起关键作用。最初，BMP信号使卫星细胞后代维持在增殖状态，从而增加细胞数量。在细胞开始分化后，它们上调BMP抑制剂脊索蛋白的表达，从而通过负反馈机制支持终末分化和肌管形成。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7abe/3149017/6eabd57543c4/1471-2121-12-26-1.jpg

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骨形态发生蛋白信号传导平衡肌肉卫星细胞后代的增殖与分化。

BMP signaling balances proliferation and differentiation of muscle satellite cell descendants.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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