Shephali Bhatnagar scite author profile

Vascular endothelial cells (EC)are an important target of estrogen action through both the classical genomic (i.e. nuclear-initiated) activities of estrogen receptors ␣ and ␤ (ER␣ and ER␤) and the rapid "nongenomic" (i.e. membrane-initiated) activation of ER that stimulates intracellular phosphorylation pathways. We tested the hypothesis that the red wine polyphenol trans-resveratrol activates MAPK signaling via rapid ER activation in bovine aortic EC, human umbilical vein EC, and human microvascular EC. We report that bovine aortic EC, human umbilical vein EC, and human microvascular EC express ER␣ and ER␤. We demonstrate that resveratrol and estradiol (E 2 ) rapidly activated MAPK in a MEK-1, Src, matrix metalloproteinase, and epidermal growth factor receptor-dependent manner. Importantly, resveratrol activated MAPK and endothelial nitric-oxide synthase (eNOS) at nM concentrations (i.e. an order of magnitude less than that required for ER genomic activity) and concentrations possibly achieved transiently in serum following oral red wine consumption. Co-treatment with ER antagonists ICI 182,780 or 4-hydroxytamoxifen blocked resveratrol-or E 2 -induced MAPK and eNOS activation, indicating ER dependence. We demonstrate for the first time that ER␣-and ER␤-selective agonists propylpyrazole triol and diarylpropionitrile, respectively, stimulate MAPK and eNOS activity. A red but not a white wine extract also activated MAPK, and activity was directly correlated with the resveratrol concentration. These data suggest that ER may play a role in the rapid effects of resveratrol in EC and that some of the atheroprotective effects of resveratrol may be mediated through rapid activation of ER signaling in EC.Epidemiological studies have indicated that the consumption of red wine reduces the incidence of mortality from coronary heart disease (CHD) 1 (1, 2). The cardioprotective effect has been attributed to the polyphenol fraction of red wine (1). A key polyphenol in red wine is resveratrol, trans-3,5,4Ј-trihydroxystilbene, from grape skin. Red wine contains 1-75 mg of transresveratrol/liter (3). Studies in male rats demonstrated that an alcohol-free red wine extract and resveratrol protect the heart from ischemia reperfusion injury (4). Rodent studies showed that orally administered resveratrol is absorbed in the gut, has high affinity for heart and liver (5, 6), and is metabolized to glucuronides that have a t1 ⁄2 of ϳ1.5 h (7). A recurrent question is whether resveratrol, at concentrations present in red wine, is effective in vivo. The oral absorption of 25 mg of trans-

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Targeted ablation of TRAF6 inhibits skeletal muscle wasting in mice

Paul

et al. 2010

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Matrix metalloproteinase-9 inhibition ameliorates pathogenesis and improves skeletal muscle regeneration in muscular dystrophy

Mittal

Makonchuk

et al. 2009

Human Molecular Genetics

157

163

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Duchenne muscular dystrophy (DMD) is a fatal X-linked genetic disorder of skeletal muscle caused by mutation in dystrophin gene. Although the degradation of skeletal muscle extracellular matrix, inflammation and fibrosis are the common pathological features in DMD, the underlying mechanisms remain poorly understood. In this study, we have investigated the role and the mechanisms by which increased levels of matrix metalloproteinase-9 (MMP-9) protein causes myopathy in dystrophin-deficient mdx mice. The levels of MMP-9 but not tissue inhibitor of MMPs were drastically increased in skeletal muscle of mdx mice. Besides skeletal muscle, infiltrating macrophages were found to contribute significantly to the elevated levels of MMP-9 in dystrophic muscle. In vivo administration of a nuclear factor-kappa B inhibitory peptide, NBD, blocked the expression of MMP-9 in dystrophic muscle of mdx mice. Deletion of Mmp9 gene in mdx mice improved skeletal muscle structure and functions and reduced muscle injury, inflammation and fiber necrosis. Inhibition of MMP-9 increased the levels of cytoskeletal protein beta-dystroglycan and neural nitric oxide synthase and reduced the amounts of caveolin-3 and transforming growth factor-beta in myofibers of mdx mice. Genetic ablation of MMP-9 significantly augmented the skeletal muscle regeneration in mdx mice. Finally, pharmacological inhibition of MMP-9 activity also ameliorated skeletal muscle pathogenesis and enhanced myofiber regeneration in mdx mice. Collectively, our study suggests that the increased production of MMP-9 exacerbates dystrophinopathy and MMP-9 represents as one of the most promising therapeutic targets for the prevention of disease progression in DMD.

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

Paul

Bhatnagar

Mishra

et al. 2012

Molecular and Cellular Biology

140

159

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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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