Implication of basal lamina dependency in survival of Nrf2‐null muscle stem cells via an antioxidative‐independent mechanism
Nuclear factor erythroid 2–related factor 2 (Nrf2) is a master regulator for the induction of antioxidative genes and plays roles in diverse cellular functions. The roles of Nrf2 in muscle regeneration have been investigated, and both important and unimportant roles of Nrf2 for muscle regeneration h...
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| Published in | Journal of cellular physiology Vol. 234; no. 2; pp. 1689 - 1698 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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| Abstract | Nuclear factor erythroid 2–related factor 2 (Nrf2) is a master regulator for the induction of antioxidative genes and plays roles in diverse cellular functions. The roles of Nrf2 in muscle regeneration have been investigated, and both important and unimportant roles of Nrf2 for muscle regeneration have been reported. Here, using aged Nrf2‐null and Nrf2–dystrophic double‐null mice, we showed nonsignificant phenotypes in the muscle regeneration ability of Nrf2‐null mice. In contrast with these results, strikingly, almost all Nrf2‐null muscle stem cells (MuSCs) isolated by fluorescence‐activated cell sorting died in vitro of apoptosis and were not rescued by antioxidative reagents. Although their proliferation was still impaired, the Nrf2‐null MuSCs attached to myofibers activated and divided normally, at least in the first round. To elucidate these discrepancies of MuSCs behaviors, we focused on the basal lamina, because both in vivo and single myofiber culture allow MuSCs within the basal lamina to become activated. In a basal lamina–disrupted model, Nrf2‐null mice exhibited remarkable regeneration defects without increased levels of reactive oxidative species in MuSCs, suggesting that the existence of the basal lamina affects the survival of Nrf2‐null MuSCs. Taken together, these results suggest that the basal lamina compensates for the loss of Nrf2, independent of the antioxidative roles of Nrf2. In addition, experimental conditions might explain the discrepant results of Nrf2‐null regenerative ability.
Muscle regeneration ability of Nrf2‐null mice is normal. However, in a basal lamina–disrupted model, Nrf2‐null mice exhibited remarkable regeneration defects without increased levels of reactive oxidative species in muscle stem cells |
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| AbstractList | Nuclear factor erythroid 2–related factor 2 (Nrf2) is a master regulator for the induction of antioxidative genes and plays roles in diverse cellular functions. The roles of Nrf2 in muscle regeneration have been investigated, and both important and unimportant roles of Nrf2 for muscle regeneration have been reported. Here, using aged Nrf2‐null and Nrf2–dystrophic double‐null mice, we showed nonsignificant phenotypes in the muscle regeneration ability of Nrf2‐null mice. In contrast with these results, strikingly, almost all Nrf2‐null muscle stem cells (MuSCs) isolated by fluorescence‐activated cell sorting died in vitro of apoptosis and were not rescued by antioxidative reagents. Although their proliferation was still impaired, the Nrf2‐null MuSCs attached to myofibers activated and divided normally, at least in the first round. To elucidate these discrepancies of MuSCs behaviors, we focused on the basal lamina, because both in vivo and single myofiber culture allow MuSCs within the basal lamina to become activated. In a basal lamina–disrupted model, Nrf2‐null mice exhibited remarkable regeneration defects without increased levels of reactive oxidative species in MuSCs, suggesting that the existence of the basal lamina affects the survival of Nrf2‐null MuSCs. Taken together, these results suggest that the basal lamina compensates for the loss of Nrf2, independent of the antioxidative roles of Nrf2. In addition, experimental conditions might explain the discrepant results of Nrf2‐null regenerative ability. Nuclear factor erythroid 2–related factor 2 (Nrf2) is a master regulator for the induction of antioxidative genes and plays roles in diverse cellular functions. The roles of Nrf2 in muscle regeneration have been investigated, and both important and unimportant roles of Nrf2 for muscle regeneration have been reported. Here, using aged Nrf2‐null and Nrf2–dystrophic double‐null mice, we showed nonsignificant phenotypes in the muscle regeneration ability of Nrf2‐null mice. In contrast with these results, strikingly, almost all Nrf2‐null muscle stem cells (MuSCs) isolated by fluorescence‐activated cell sorting died in vitro of apoptosis and were not rescued by antioxidative reagents. Although their proliferation was still impaired, the Nrf2‐null MuSCs attached to myofibers activated and divided normally, at least in the first round. To elucidate these discrepancies of MuSCs behaviors, we focused on the basal lamina, because both in vivo and single myofiber culture allow MuSCs within the basal lamina to become activated. In a basal lamina–disrupted model, Nrf2‐null mice exhibited remarkable regeneration defects without increased levels of reactive oxidative species in MuSCs, suggesting that the existence of the basal lamina affects the survival of Nrf2‐null MuSCs. Taken together, these results suggest that the basal lamina compensates for the loss of Nrf2, independent of the antioxidative roles of Nrf2. In addition, experimental conditions might explain the discrepant results of Nrf2‐null regenerative ability. Muscle regeneration ability of Nrf2‐null mice is normal. However, in a basal lamina–disrupted model, Nrf2‐null mice exhibited remarkable regeneration defects without increased levels of reactive oxidative species in muscle stem cells |
| Author | Fukada, So‐ichiro Uezumi, Akiyoshi Takemoto, Yusei Zhang, Lidan Tsujikawa, Kazutake Inaba, Shoya |
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| Snippet | Nuclear factor erythroid 2–related factor 2 (Nrf2) is a master regulator for the induction of antioxidative genes and plays roles in diverse cellular... Nuclear factor erythroid 2-related factor 2 (Nrf2) is a master regulator for the induction of antioxidative genes and plays roles in diverse cellular... |
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| SubjectTerms | Animals Apoptosis Basal lamina Basement Membrane - metabolism Cell culture Cell Culture Techniques Cell Proliferation Cell Survival Cells, Cultured Collagen - metabolism Dependence Drug Combinations Fluorescence Laminin - metabolism Mice Mice, Inbred mdx Mice, Knockout Muscle Development muscle satellite Muscle, Skeletal - metabolism Muscle, Skeletal - pathology Muscles NF-E2-Related Factor 2 - deficiency NF-E2-Related Factor 2 - genetics Oxidative Stress Phenotypes Proteoglycans - metabolism Reactive Oxygen Species - metabolism Reagents Regeneration Rodents Satellite Cells, Skeletal Muscle - metabolism Satellite Cells, Skeletal Muscle - pathology Signal Transduction skeletal muscle Stem cell transplantation Stem cells Survival |
| Title | Implication of basal lamina dependency in survival of Nrf2‐null muscle stem cells via an antioxidative‐independent mechanism |
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