Regulation of Pax7 protein levels by caspase-3 and proteasome activity in differentiating myoblasts

Olguín, Hugo C.

doi:10.4067/s0716-97602011000400002

Cited by 16 publications

(14 citation statements)

References 22 publications

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“…Alternatively, increased caspase-3 expression may lead to intracellular alterations, in turn activate a differentiation process (28). This effect was clear, in the present results, in early weeks of combined treatment groups, where the evidence of new muscle formation (central nuclei and multinucleated fibers) (49), near the necrotic mass was seen, i.e. dedifferentiation of degenerating cells to regenerate new cells.…”

Section: -Protective and Promising Myogenic Effect Of Two Thymoquinonsupporting

confidence: 69%

“…Of interest was the contribution of caspase-3 to differentiation of various cells including muscle cells (49), which was explained as that differentiating myoblasts share a remarkable similarity with many key cellular alterations common for apoptosis (28). The role of caspase-3 was explained by Fernando et.…”

Section: -Protective and Promising Myogenic Effect Of Two Thymoquinonmentioning

confidence: 99%

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Protective and Promising Myogenic Effect of Two Thymoquinone Formulations In Relation To the Hamster Buccal Pouch-Induced Carcinogenic Model

Hassan¹

2017

IOSR JDMS

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Section: -Protective and Promising Myogenic Effect Of Two Thymoquinonsupporting

confidence: 69%

Section: -Protective and Promising Myogenic Effect Of Two Thymoquinonmentioning

confidence: 99%

Protective and Promising Myogenic Effect of Two Thymoquinone Formulations In Relation To the Hamster Buccal Pouch-Induced Carcinogenic Model

Hassan¹

2017

IOSR JDMS

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“…Previous observations have suggested Pax7 is subjected to caspase/proteasome-dependent regulation (15). Here, we provide evidence that Pax7 is a direct target of caspase 3 at aspartic acid residues D187 and D208.…”

supporting

confidence: 52%

“…The mechanisms involved in the posttranslational regulation of Pax7 protein stability during myoblast differentiation has only been briefly analyzed (15). However, its close paralogue, Pax3, has been demonstrated to be regulated by ubiquitin-mediated degradation (30).…”

Section: Phosphorylation Of Pax7 Via Ck2 Prevents Caspase 3 Cleavage Andmentioning

confidence: 99%

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

Dick

Chang

Dumont

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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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 selfrenewal, 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.caspase | satellite cells | Pax7 | casein kinase 2 | self-renewal

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“…Pax7 is expressed in quiescent satellite cells and is also critical for their cell cycle progression by regulating genes involved in cell proliferation, while preventing differentiation (Olguin et al, 2007; Soleimani et al, 2012a; von Maltzahn et al, 2013). Pax7-expressing quiescent satellite cells induce the expression of Myf5 and MyoD upon their activation (Mckinnell et al, 2008), thereby allowing successive rounds of cell proliferation (Olguin and Olwin, 2004); instead, downregulation of Pax7 prior to myogenin activation facilitates exit the cell cycle and differentiation entry (Olguin et al, 2007; Olguin, 2011; Bustos et al, 2015). Translational control of MRFs' expression also accounts for the transition through the sequential myogenic stages: (1) In quiescent satellite cells the expression of the Myf5 protein is avoided by sequestration of the Myf5 mRNA in messenger ribonucleoprotein granules and by the action of the microRNA-31, which blocks Myf5 translation (Crist et al, 2012); (2) MyoD protein expression is also prevented in quiescent satellite cells by the action of tristetraprolin (TTP), a protein that promotes the degradation of MyoD RNA (Hausburg et al, 2015); (3) Moreover, a global mechanism of repression of translation, mediated by the phosphorylation of the eukaryotic initiation factor eIF2α at serine 51, preserves the quiescent state of satellite cells, as cells that cannot phosphorylate eIF2α exit quiescence and activate the myogenic program (Zismanov et al, 2016).…”

Section: Transcriptional and Translational Regulation Of Myogenesismentioning

confidence: 99%

Regulation of Muscle Stem Cell Functions: A Focus on the p38 MAPK Signaling Pathway

Segalés

Perdiguero

Muñoz‐Cánoves

2016

Front. Cell Dev. Biol.

168

118

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Formation of skeletal muscle fibers (myogenesis) during development and after tissue injury in the adult constitutes an excellent paradigm to investigate the mechanisms whereby environmental cues control gene expression programs in muscle stem cells (satellite cells) by acting on transcriptional and epigenetic effectors. Here we will review the molecular mechanisms implicated in the transition of satellite cells throughout the distinct myogenic stages (i.e., activation from quiescence, proliferation, differentiation, and self-renewal). We will also discuss recent findings on the causes underlying satellite cell functional decline with aging. In particular, our review will focus on the epigenetic changes underlying fate decisions and on how the p38 MAPK signaling pathway integrates the environmental signals at the chromatin to build up satellite cell adaptive responses during the process of muscle regeneration, and how these responses are altered in aging. A better comprehension of the signaling pathways connecting external and intrinsic factors will illuminate the path for improving muscle regeneration in the aged.

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Regulation of Pax7 protein levels by caspase-3 and proteasome activity in differentiating myoblasts

Cited by 16 publications

References 22 publications

Protective and Promising Myogenic Effect of Two Thymoquinone Formulations In Relation To the Hamster Buccal Pouch-Induced Carcinogenic Model

Protective and Promising Myogenic Effect of Two Thymoquinone Formulations In Relation To the Hamster Buccal Pouch-Induced Carcinogenic Model

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

Regulation of Muscle Stem Cell Functions: A Focus on the p38 MAPK Signaling Pathway

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