Tumor Necrosis Factor Alpha Regulates Skeletal Myogenesis by Inhibiting SP1 Interaction with cis-Acting Regulatory Elements within the Fbxl2 Gene Promoter

OBrien Michael E.; Londino James; McGinnis MarcusWeathington NathanielAdair JessicaSuber TomekaKagan ValerianChen KongZou ChunbinChen BillBon JessicaMallampalli Rama K.

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Tumor Necrosis Factor Alpha Regulates Skeletal Myogenesis by Inhibiting SP1 Interaction with cis-Acting Regulatory Elements within the Fbxl2 Gene Promoter

机译：Tumor Necrosis Factor Alpha Regulates Skeletal Myogenesis by Inhibiting SP1 Interaction with cis-Acting Regulatory Elements within the Fbxl2 Gene Promoter

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FBXL2 is an important ubiquitin E3 ligase component that modulates inflammatory signaling and cell cycle progression, but its molecular regulation is largely unknown. Here, we show that tumor necrosis factor alpha (TNF-alpha), a critical cytokine linked to the inflammatory response during skeletal muscle regeneration, suppressed Fbxl2 mRNA expression in C2C12 myoblasts and triggered significant alterations in cell cycle, metabolic, and protein translation processes. Gene silencing of Fbxl2 in skeletal myoblasts resulted in increased proliferative responses characterized by activation of mitogen-activated protein (MAP) kinases and nuclear factor kappa B and decreased myogenic differentiation, as reflected by reduced expression of myogenin and impaired myotube formation. TNF-alpha did not destabilize the Fbxl2 transcript (half-life [t(1/2)], similar to 10 h) but inhibited SP1 transactivation of its core promoter, localized to bp -160 to +42 within the proximal 5' flanking region of the Fbxl2 gene. Chromatin immunoprecipitation and gel shift studies indicated that SP1 interacted with the Fbxl2 promoter during cellular differentiation, an effect that was less pronounced during proliferation or after TNF-alpha exposure. TNF-alpha, via activation of JNK, mediated phosphorylation of SP1 that impaired its binding to the Fbxl2 promoter, resulting in reduced transcriptional activity. The results suggest that SP1 transcriptional activation of Fbxl2 is required for skeletal muscle differentiation, a process that is interrupted by a key proinflammatory myopathic cytokine.

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来源
《Molecular and Cellular Biology》 |2020年第12期|共16页
作者
OBrien Michael E.; Londino James; McGinnis MarcusWeathington NathanielAdair JessicaSuber TomekaKagan ValerianChen KongZou ChunbinChen BillBon JessicaMallampalli Rama K.;
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作者单位

Ohio State Univ, Pulm Crit Care & Sleep Med, Wexner Med Ctr, Davis Heart Lung Res Inst, Columbus, OH 43210 USA;

Univ Pittsburgh, Dept Med, Pittsburgh, PA USA;

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原文格式 PDF
正文语种英语
中图分类分子生物学;
关键词
Fbxl2; SP1; TNF-alpha; myogenesis; proliferation; differentiation; cell cycle; myoblast; transcriptional regulation; ubiquitin;

Tumor Necrosis Factor Alpha Regulates Skeletal Myogenesis by Inhibiting SP1 Interaction with cis-Acting Regulatory Elements within the Fbxl2 Gene Promoter

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