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半胱天冬酶3对PAX7的切割抑制卫星细胞的自我更新。

Caspase 3 cleavage of Pax7 inhibits self-renewal of satellite cells.

作者信息

Dick Sarah A, Chang Natasha C, Dumont Nicolas A, Bell Ryan A V, Putinski Charis, Kawabe Yoichi, Litchfield David W, Rudnicki Michael A, Megeney Lynn A

机构信息

Regenerative Medicine Program, Sprott Center for Stem Cell Research, Ottawa Hospital Research Institute, Ottawa, ON, Canada K1H 8L6; Department of Cellular and Molecular Medicine, University of Ottawa, Ottawa, ON, Canada K1H 8L6;

Regenerative Medicine Program, Sprott Center for Stem Cell Research, Ottawa Hospital Research Institute, Ottawa, ON, Canada K1H 8L6;

出版信息

Proc Natl Acad Sci U S A. 2015 Sep 22;112(38):E5246-52. doi: 10.1073/pnas.1512869112. Epub 2015 Sep 8.

DOI:10.1073/pnas.1512869112
PMID:26372956
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4586827/
Abstract

Compensatory growth and regeneration of skeletal muscle is dependent on the resident stem cell population, satellite cells (SCs). Self-renewal and maintenance of the SC niche is coordinated by the paired-box transcription factor Pax7, and yet continued expression of this protein inhibits the myoblast differentiation program. As such, the reduction or removal of Pax7 may denote a key prerequisite for SCs to abandon self-renewal and acquire differentiation competence. Here, we identify caspase 3 cleavage inactivation of Pax7 as a crucial step for terminating the self-renewal process. Inhibition of caspase 3 results in elevated Pax7 protein and SC self-renewal, whereas caspase activation leads to Pax7 cleavage and initiation of the myogenic differentiation program. Moreover, in vivo inhibition of caspase 3 activity leads to a profound disruption in skeletal muscle regeneration with an accumulation of SCs within the niche. We have also noted that casein kinase 2 (CK2)-directed phosphorylation of Pax7 attenuates caspase-directed cleavage. Together, these results demonstrate that SC fate is dependent on opposing posttranslational modifications of the Pax7 protein.

摘要

骨骼肌的代偿性生长和再生依赖于常驻干细胞群体,即卫星细胞(SCs)。卫星细胞生态位的自我更新和维持由配对盒转录因子Pax7协调,但该蛋白的持续表达会抑制成肌细胞分化程序。因此,Pax7的减少或去除可能是卫星细胞放弃自我更新并获得分化能力的关键前提条件。在此,我们确定Pax7的半胱天冬酶3切割失活是终止自我更新过程的关键步骤。抑制半胱天冬酶3会导致Pax7蛋白水平升高和卫星细胞自我更新,而半胱天冬酶激活则导致Pax7切割并启动肌源性分化程序。此外,体内抑制半胱天冬酶3活性会导致骨骼肌再生严重受损,卫星细胞在生态位内积累。我们还注意到酪蛋白激酶2(CK2)介导的Pax7磷酸化会减弱半胱天冬酶介导的切割。总之,这些结果表明卫星细胞的命运取决于Pax7蛋白相反的翻译后修饰。

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