Publications (3)12.52 Total impact
-
Article: Oxidative stress in skeletal muscle causes severe disturbance of exercise activity without muscle atrophy.
[show abstract] [hide abstract]
ABSTRACT: The increase in reactive oxygen species (ROS) levels that occurs during intense exercise has been proposed to be one of the major causes of muscle fatigue. In addition, the accumulation of cellular damage due to ROS is widely regarded to be one of the factors triggering age-related pathological conditions in skeletal muscle. To investigate the pathological significance of oxidative stress in skeletal muscle, we generated skeletal muscle-specific manganese superoxide dismutase-deficient (muscle-Sod2(-/-)) mice. The mutant mice showed severe disturbances in exercise activity, but no atrophic changes in their skeletal muscles. In histological and histochemical analyses, the mutant mice showed centralized nuclei in their muscle fibers and selective loss of enzymatic activity in mitochondrial respiratory chain complexes. In addition, the mutant mice displayed increased oxidative damage and reduced ATP content in their muscle tissue. Furthermore, a single administration of the antioxidant EUK-8 significantly improved exercise activity and increased the cellular ATP level in skeletal muscle. These results imply that the superoxide anions generated in mitochondria play a pivotal role in the progression of exercise intolerance.Free radical biology & medicine 02/2010; 48(9):1252-62. · 5.42 Impact Factor -
Article: Regulated expression of two sets of paternally imprinted genes is necessary for mouse parthenogenetic development to term.
[show abstract] [hide abstract]
ABSTRACT: Mouse parthenogenetic embryos (PEs) are developmentally arrested until embryo day (E) 9.5 because of genomic imprinting. However, we have shown that embryos containing genomes from non-growing (ng) and fully grown (fg) oocytes, i.e. ng(wt)/fg(wt) PE (wt, wild type), developed to E13.5. Moreover, parthenogenetic development could be extended to term by further regulation of Igf2 and H19 expression using mice with deletion of the H19 transcription unit (H19Delta13) together with its differentially unit (DMR). To gain an insight into the extended development of the parthenotes to term, we have here investigated the expression levels of paternally imprinted genes in ng(H19Delta13)/fg(wt) PE throughout their development. In ng(H19Delta13)/fg(wt) Pes that died soon after recovery, the expression of Igf2 and H19 was restored to the appropriate levels except for low Igf2 expression in the liver after E15.5. Further, the paternally expressed Dlk1 and Dio3 were repressed, while the expression levels of the maternal Gtl2 and Mirg were twice those of the controls. However, the above-mentioned four genes showed almost normal expression in the surviving ng(H19Delta13)/fg(wt) PEs. The methylation analysis revealed that the intragenic DMR of the Dlk1-Gtl2 domain was hypermethylated in the ng(H19Delta13)/fg(wt) PEs that survived, but not in the PEs that died soon after recovery. The present study suggests that two sets of co-ordinately regulated but oppositely expressed genes, Igf2-H19 and Dlk1-Gtl2, act as a critical barrier to parthenogenetic development in order to render a paternal contribution obligatory for descendants in mammals.Reproduction (Cambridge, England) 04/2006; 131(3):481-8. · 3.09 Impact Factor -
Article: Nuclei of oocytes derived from mouse parthenogenetic embryos are competent to support development to term.
[show abstract] [hide abstract]
ABSTRACT: Mouse parthenotes result in embryonic death before 10 days of gestation, but parthenogenetic embryos (ng/fg PE) that contain haploid sets of genomes from nongrowing (ng) oocytes derived from newborn fetuses and fully grown (fg) oocytes derived from adults can develop into 13.5-day-old fetuses. This prolonged development is due to a lack of genomic imprinting in ng oocytes. Here, we show maternal genomes of oocytes derived from ng/fg PE are competent to support normal development. After 28 days of culture, the ovaries from ng/fg PE grew as well as the controls, forming vesicular follicles with follicular antrums. The oocytes collected from the developed follicles were the same size as those of the controls. To determine whether maternal primary imprinting had been established in the oocytes derived from ng/fg PE, we examined the DNA methylation status in differentially methylated regions of three imprinted genes, Igf2r, Lit1, and H19. The results showed that maternal-specific modifications were imposed in the oocytes derived from ng/fg PE. Further, to assess nuclear competence to support development, we constructed matured oocytes containing a haploid genome derived from ng/fg PE oocytes by serial nuclear transfer. After in vitro fertilization and culture and embryo transplantation into recipients, two live pups were obtained. One developed normally to a fertile adult. These results revealed that oocytes derived from ng/fg PE can be normally imprinted during oogenesis and acquire competence to participate in development as female genomes.Biology of Reproduction 12/2004; 71(5):1560-7. · 4.01 Impact Factor
