肌生成抑制素基因失活在体外可抑制肌肉来源干细胞的肌生成，但植入mdx小鼠肌肉时则不然。

Myostatin genetic inactivation inhibits myogenesis by muscle-derived stem cells in vitro but not when implanted in the mdx mouse muscle.

作者信息

Tsao James, Vernet Dolores A, Gelfand Robert, Kovanecz Istvan, Nolazco Gaby, Bruhn Kevin W, Gonzalez-Cadavid Nestor F

出版信息

Stem Cell Res Ther. 2013 Jan 7;4(1):4. doi: 10.1186/scrt152.

DOI:10.1186/scrt152

PMID:23295128

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3706886/

Abstract

INTRODUCTION

Stimulating the commitment of implanted dystrophin+ muscle-derived stem cells (MDSCs) into myogenic, as opposed to lipofibrogenic lineages, is a promising therapeutic strategy for Duchenne muscular dystrophy (DMD).

METHODS

To examine whether counteracting myostatin, a negative regulator of muscle mass and a pro-lipofibrotic factor, would help this process, we compared the in vitro myogenic and fibrogenic capacity of MDSCs from wild-type (WT) and myostatin knockout (Mst KO) mice under various modulators, the expression of key stem cell and myogenic genes, and the capacity of these MDSCs to repair the injured gastrocnemius in aged dystrophic mdx mice with exacerbated lipofibrosis.

RESULTS

Surprisingly, the potent in vitro myotube formation by WT MDSCs was refractory to modulators of myostatin expression or activity, and the Mst KO MDSCs failed to form myotubes under various conditions, despite both MDSC expressing Oct 4 and various stem cell genes and differentiating into nonmyogenic lineages. The genetic inactivation of myostatin in MDSCs was associated with silencing of critical genes for early myogenesis (Actc1, Acta1, and MyoD). WT MDSCs implanted into the injured gastrocnemius of aged mdx mice significantly improved myofiber repair and reduced fat deposition and, to a lesser extent, fibrosis. In contrast to their in vitro behavior, Mst KO MDSCs in vivo also significantly improved myofiber repair, but had few effects on lipofibrotic degeneration.

CONCLUSIONS

Although WT MDSCs are very myogenic in culture and stimulate muscle repair after injury in the aged mdx mouse, myostatin genetic inactivation blocks myotube formation in vitro, but the myogenic capacity is recovered in vivo under the influence of the myostatin+ host-tissue environment, presumably by reactivation of key genes originally silenced in the Mst KO MDSCs.

摘要

引言

促使植入的抗肌萎缩蛋白阳性肌源性干细胞（MDSCs）定向分化为肌源性而非脂肪纤维生成谱系，是治疗杜氏肌营养不良症（DMD）的一种有前景的治疗策略。

方法

为了研究抑制肌肉生长抑制素（一种肌肉量的负调节因子和促脂肪纤维化因子）是否有助于这一过程，我们比较了野生型（WT）和肌肉生长抑制素基因敲除（Mst KO）小鼠的MDSCs在各种调节剂作用下的体外肌源性和纤维生成能力、关键干细胞和肌源性基因的表达，以及这些MDSCs修复老年营养不良性mdx小鼠受损腓肠肌（伴有加剧的脂肪纤维化）的能力。

结果

令人惊讶的是，WT MDSCs在体外高效形成肌管的能力不受肌肉生长抑制素表达或活性调节剂的影响，并且Mst KO MDSCs在各种条件下均未能形成肌管，尽管两种MDSCs都表达Oct 4和各种干细胞基因并分化为非肌源性谱系。MDSCs中肌肉生长抑制素的基因失活与早期肌生成关键基因（Actc1、Acta1和MyoD）的沉默有关。植入老年mdx小鼠受损腓肠肌的WT MDSCs显著改善了肌纤维修复，减少了脂肪沉积，并在较小程度上减轻了纤维化。与它们在体外的行为相反，体内的Mst KO MDSCs也显著改善了肌纤维修复，但对脂肪纤维变性影响较小。

结论

尽管WT MDSCs在培养中具有很强的肌源性，并且在老年mdx小鼠损伤后能刺激肌肉修复，但肌肉生长抑制素基因失活在体外会阻止肌管形成，不过在肌肉生长抑制素阳性宿主组织环境的影响下，其肌源性能力在体内得以恢复，可能是通过重新激活最初在Mst KO MDSCs中沉默的关键基因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d772/3706886/5e2b52e298b1/scrt152-1.jpg

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肌生成抑制素基因失活在体外可抑制肌肉来源干细胞的肌生成，但植入mdx小鼠肌肉时则不然。

Myostatin genetic inactivation inhibits myogenesis by muscle-derived stem cells in vitro but not when implanted in the mdx mouse muscle.

作者信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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