Pradyut K. Paul scite author profile

dStarvation, like many other catabolic conditions, induces loss of skeletal muscle mass by promoting fiber atrophy. In addition to the canonical processes, the starvation-induced response employs many distinct pathways that make it a unique atrophic program. However, in the multiplex of the underlying mechanisms, several components of starvation-induced atrophy have yet to be fully understood and their roles and interplay remain to be elucidated. Here we unveiled the role of tumor necrosis factor receptor-associated factor 6 (TRAF6), a unique E3 ubiquitin ligase and adaptor protein, in starvation-induced muscle atrophy. Targeted ablation of TRAF6 suppresses the expression of key regulators of atrophy, including MAFBx, MuRF1, p62, LC3B, Beclin1, Atg12, and Fn14. Ablation of TRAF6 also improved the phosphorylation of Akt and FoxO3a and inhibited the activation of 5= AMP-activated protein kinase in skeletal muscle in response to starvation. In addition, our study provides the first evidence of the involvement of endoplasmic reticulum stress and unfolding protein response pathways in starvation-induced muscle atrophy and its regulation through TRAF6. Finally, our results also identify lysine 63-linked autoubiquitination of TRAF6 as a process essential for its regulatory role in starvation-induced muscle atrophy.

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Targeted ablation of TRAF6 inhibits skeletal muscle wasting in mice

Paul¹,

Bhatnagar²,

Panguluri³

et al. 2011

J Exp Med

129

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Tumor Necrosis Factor-related Weak Inducer of Apoptosis Augments Matrix Metalloproteinase 9 (MMP-9) Production in Skeletal Muscle through the Activation of Nuclear Factor-κB-inducing Kinase and p38 Mitogen-activated Protein Kinase

Mittal

Paul

et al. 2009

Journal of Biological Chemistry

108

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Destruction of skeletal muscle extracellular matrix is an important pathological consequence of many diseases involving muscle wasting. However, the underlying mechanisms leading to extracellular matrix breakdown in skeletal muscle tissues remain unknown. Using a microarray approach, we investigated the effect of tumor necrosis factor-related weak inducer of apoptosis (TWEAK), a recently identified muscle-wasting cytokine, on the expression of extracellular proteases in skeletal muscle. Among several other matrix metalloproteinases (MMPs), we found that the expression of MMP-9, a type IV collagenase, was drastically increased in myotubes in response to TWEAK. The level of MMP-9 was also higher in myofibers of TWEAK transgenic mice. TWEAK increased the activation of both classical and alternative nuclear factor-B (NF-B) signaling pathways. Inhibition of NF-B activity blocked the TWEAK-induced production of MMP-9 in myotubes. TWEAK also increased the activation of AP-1, and its inhibition attenuated the TWEAK-induced MMP-9 production. Overexpression of a kinase-dead mutant of NF-B-inducing kinase or IB kinase-␤ but not IB kinase-␣ significantly inhibited the TWEAK-induced activation of MMP-9 promoter. The activation of MMP-9 also involved upstream recruitment of TRAF2 and cIAP2 proteins. TWEAK increased the activity of ERK1/2, JNK1, and p38 MAPK. However, the inhibition of only p38 MAPK blocked the TWEAK-induced expression of MMP-9 in myotubes. Furthermore the loss of body and skeletal muscle weights, inflammation, fiber necrosis, and degradation of basement membrane around muscle fibers were significantly attenuated in Mmp9 knock-out mice on chronic administration of TWEAK protein.The study unveils a novel mechanism of skeletal muscle tissue destruction in pathological conditions.

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Genetic Ablation of TWEAK Augments Regeneration and Post-Injury Growth of Skeletal Muscle in Mice

Mittal

Bhatnagar

Kumar

et al. 2010

The American Journal of Pathology

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Impairment in the regeneration process is a critical determinant for skeletal muscle wasting in chronic diseases and degenerative muscle disorders. Inflammatory cytokines are known to cause significant muscle wasting , however, their role in myofiber regeneration is less clear. In this study we have investigated the role of tumor necrosis factor-like weak inducer of apoptosis (TWEAK) in skeletal muscle regeneration in vivo. Our results show that expression levels of TWEAK and its receptor Fn14 are significantly increased in skeletal muscles of mice after injury. Genetic deletion of TWEAK increased the fiber crosssectional area and levels of embryonic isoform of myosin heavy chain in regenerating tibial anterior muscle. Conversely , muscle-specific transgenic overexpression of TWEAK reduced the fiber cross-sectional area and levels of the embryonic myosin heavy chain in regenerating muscle. TWEAK induced the expression of several inflammatory molecules and increased interstitial fibrosis in regenerating muscle. Genetic ablation of TWEAK suppressed, whereas overexpression of TWEAK increased, the activation of nuclear factor-kappa B without affecting the activation of Akt or p38 kinase in regenerating myofibers. Primary myoblasts from TWEAK-null mice showed enhanced differentiation in vitro, whereas myoblasts from TWEAK-Tg mice showed reduced differentiation compared with wild-type mice. Collectively, our study suggests that TWEAK negatively regulates muscle regeneration and that TWEAK is a potential therapeutic target to enhance skeletal muscle regeneration in vivo. (Am J

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Pradyut K. Paul

Targeted ablation of TRAF6 inhibits skeletal muscle wasting in mice

The E3 Ubiquitin Ligase TRAF6 Intercedes in Starvation-Induced Skeletal Muscle Atrophy through Multiple Mechanisms

Targeted ablation of TRAF6 inhibits skeletal muscle wasting in mice

Tumor Necrosis Factor-related Weak Inducer of Apoptosis Augments Matrix Metalloproteinase 9 (MMP-9) Production in Skeletal Muscle through the Activation of Nuclear Factor-κB-inducing Kinase and p38 Mitogen-activated Protein Kinase

Genetic Ablation of TWEAK Augments Regeneration and Post-Injury Growth of Skeletal Muscle in Mice

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