Atsuya Watanabe scite author profile

Responsiveness to physiological stimuli, such as exercise and muscular inactivation, differs in individuals. However, the mechanisms responsible for these individual differences remain poorly understood. We tested whether a prior experience of exercise training affects the responses of skeletal muscles to unloading. Young rats were assigned to perform daily running training with a treadmill for 8 wk. After an additional 8 wk of normal habitation, the rats were hindlimb unloaded by tail suspension for 1 wk. Fast-twitch plantaris, gastrocnemius, and tibialis anterior muscles did not atrophy after unloading in rats with training experience, although soleus muscle lost weight similar to sedentary rats. We also analyzed the transcriptome in plantaris muscle with RNA sequencing followed by hierarchical clustering analysis and found that a subset of genes that were generally upregulated in sedentary rats after unloading were less responsive in rats with training experience. The distribution of histone 3 was diminished at the loci of these genes during the training period. Although the deposition of histone 3 was restored after an additional period of normal habitation, the incorporation of H3.3 variant was promoted in rats with training experience. This remodeling of nucleosomes closely correlated to the conformational changes of chromatin and suppressed gene expression in response to unloading. These results suggest that exercise training stimulated the early turnover of histone components, which may alter the responsiveness of gene transcription to physiological stimuli. The present study demonstrates that disuse atrophy was suppressed in fast-twitch skeletal muscles of rats with training experience in early life. We also found a subset of genes that were less responsive to unloading in the muscle of rats with training experience. It was further determined that exercise training caused an early turnover of nucleosome components, which may alter the responsiveness of genes to stimulus in later life.

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Intracranial Subdural Hematoma After Resection of a Thoracic Spinal Cord Tumor

Watanabe¹,

Takai²,

Ogino³

et al. 2002

Journal of Spinal Disorders & Techniques

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Intracranial subdural hematoma associated with intracranial hypotension is a rare complication of dural puncture and other procedures on the dura. This report describes the case of a 25-year-old man who developed intracranial subdural hematoma after resection of a thoracic spinal cord tumor. Intracranial subdural hematoma could result in severe and permanent neurologic deficit if it remains unrecognized. Severe and prolonged postdural puncture headache should be regarded as a warning sign of an intracranial subdural hematoma, and in those patients early investigation is recommended.

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Muscle type-specific RNA polymerase II recruitment during PGC-1α gene transcription after acute exercise in adult rats

Masuzawa

Konno

Ohsawa

et al. 2018

Journal of Applied Physiology

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Epigenetic regulation of gene expression differs between fast- and slow-twitch skeletal muscles in adult rats, although the precise mechanisms are still unknown. The present study investigates the differences in responses of RNA polymerase II (Pol II) and histone acetylation during transcriptional activation in the plantaris and soleus muscles of adult rats after acute treadmill running. We targeted the peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1α) gene to analyze epigenomic changes by chromatin immunoprecipitation. The mRNA expression of the PGC-1α-b isoform was significantly up-regulated in both plantaris and soleus muscles 2 h after acute running, although the magnitude of the up-regulation was more pronounced in the plantaris muscle. The sequences of proximal exons of the PGC-1α locus were expressed more in the plantaris muscle after acute running. Accumulation of Pol II was noted near the alternative exon 1 in both plantaris and soleus muscles in association with the enhanced distribution of acetylated histone 3. Accumulation of Pol II was also observed at the transcription start site, exon 2, and exon 3 in the plantaris muscle, but not the soleus muscle. It was noted that in the soleus muscle, acetylation of histone 3 at lysine 27 was enhanced throughout the PGC-1α locus in response to transcriptional activation, suggesting that elongating Pol II was capable of traveling through to the end of the locus. These results indicate that the mobility of Pol II during PGC-1αtranscription differed between fast- and slow-twitch skeletal muscles, affecting the strength of the transcriptional activity.

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Prenatal myonuclei play a crucial role in skeletal muscle hypertrophy in rodents

Kawano

Ono

Fujita

et al. 2017

American Journal of Physiology-Cell Physiology

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Multinucleated muscle fibers are formed by the fusion of myogenic progenitor cells during embryonic and fetal myogenesis. However, the role of prenatally incorporated myonuclei in the skeletal muscle fibers of adult animals is poorly understood. We demonstrated, using muscle-specific reporter mice, that the prenatal myonuclei remained in the adult soleus muscle, although cardiotoxin injection caused the loss of prenatal myonuclei. Overloading by the tendon transection of synergists failed to induce compensatory hypertrophy in regenerated soleus muscle fibers of adult rats, whereas unloading by tail suspension normally induced the fiber atrophy. Loss of hypertrophying function correlated with the lowered histone acetylation at the transcription start site of gene, which was one of the genes that did not respond to the overloading. These parameters were improved by the transplantation of cells harvested from the juvenile soleus muscles of neonatal rats in association with enhanced histone acetylation of gene. These results indicated that the presence of prenatal myonuclei was closely related to the status of histone acetylation, which could regulate the responsiveness of muscle fibers to physiological stimuli.

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A Minimal 10 Years Follow-Up of Osteoplastic Hemi-Laminectomy in Patients With Lumbar Foraminal Disc Herniation

Toyone¹,

Ozawa²,

Inada³

et al. 2008

Spine

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Atsuya Watanabe

Running training experience attenuates disuse atrophy in fast-twitch skeletal muscles of rats

Intracranial Subdural Hematoma After Resection of a Thoracic Spinal Cord Tumor

Muscle type-specific RNA polymerase II recruitment during PGC-1α gene transcription after acute exercise in adult rats

Prenatal myonuclei play a crucial role in skeletal muscle hypertrophy in rodents

A Minimal 10 Years Follow-Up of Osteoplastic Hemi-Laminectomy in Patients With Lumbar Foraminal Disc Herniation

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