Takayuki Kawachi scite author profile

Takayuki Kawachi

2Publications

97Citation Statements Received

0Citation Statements Given

How they've been cited

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138

Affiliations

Tokyo University of the Arts, The University of Tokyo

Publications

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Mitochondrial adaptations in skeletal muscle to hindlimb unloading

et al. 2010

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To gain insight into the regulation of mitochondrial adaptations to hindlimb unloading (HU), the activity of mitochondrial enzymes and the expression of nuclear-encoded genes which control mitochondrial properties in mouse gastrocnemius muscle were investigated. Biochemical and enzyme histochemical analysis showed that subsarcolemmal mitochondria were lost largely than intermyofibrillar mitochondria after HU. Gene expression analysis revealed disturbed or diminished gene expression patterns. The three main results of this analysis are as follows. First, in contrast to peroxisome proliferator-activated receptor γ coactivator 1 β (PGC-1β) and PGC-1-related coactivator, which were down-regulated by HU, PGC-1α was up-regulated concomitant with decreased expression of its DNA binding transcription factors, PPARα, and estrogen-related receptor α (ERRα). Moreover, there was no alteration in expression of nuclear respiratory factor 1, but its downstream target gene, mitochondrial transcription factor A, was down-regulated. Second, both mitofusin 2 and fission 1, which control mitochondrial morphology, were down-regulated. Third, ATP-dependent Lon protease, which participates in mitochondrial-protein degradation, was also down-regulated. These findings suggest that HU may induce uncoordinated expression of PGC-1 family coactivators and DNA binding transcription factors, resulting in reducing ability of mitochondrial biogenesis. Furthermore, down-regulation of mitochondrial morphology-related genes associated with HU may be also involved in alterations in intracellular mitochondrial distribution.

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Pharmacological inhibition of HSP90 activity negatively modulates myogenic differentiation and cell survival in C2C12 cells

et al. 2011

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Heat-shock protein90 (HSP90) plays an essential role in maintaining stability and activity of its clients. HSP90 is involved in cell differentiation and survival in a variety of cell types. To elucidate the possible role of HSP90 in myogenic differentiation and cell survival, we examined the time course of changes in the expression of myogenic regulatory factors, intracellular signaling molecules, and anti-/pro-apoptotic factors when C2C12 cells were cultured in differentiation condition in the presence of a HSP90-specific inhibitor, geldanamycin. Furthermore, we examined the effects of geldanamycin on muscle regeneration in vivo. Our results showed that geldanamycin inhibited myogenic differentiation with decreased expression of MyoD, myogenin and reduced phosphorylation levels of Akt1. Geldanamycin had little effect on the phosphorylation levels of p38MAPK and ERK1/2 but reduced the phosphorylation levels of JNK. Along with myogenic differentiation, geldanamycin increased apoptotic nuclei with decreased expression of Bcl-2. The skeletal muscles forced to regenerate in the presence of geldanamycin were of poor repair with small regenerating myofibers and increased connective tissues. Together, our findings suggest that HSP90 may modulate myogenic differentiation and may be involved in cell survival.

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