冬眠期间低体温下指甲生长停滞

Taiga Ishimoto, Hideyuki Kosumi, Ken Natsuga, Yoshifumi Yamaguchi
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引用次数: 0

摘要

冬眠是一种在严寒季节通过降低新陈代谢和体温来保存能量的策略,在冬眠期间生长和分化会减少或停止。然而,很少有研究使用非侵入性方法对同一个体进行评估。在这项研究中,我们采用了一种非侵入性追踪方法,对同一冬眠动物叙利亚仓鼠(Mesocricetus auratus)在整个冬眠期间的指甲生长情况进行了追踪。我们发现,指甲生长在冬眠期间受到明显抑制,但在冬眠期结束后迅速恢复。我们的数据表明,指甲的生长在深冬眠(一种低代谢和低体温状态)期间受到抑制,但在周期性唤醒(一种体温阶段)期间得到恢复。与此相一致的是,位于指甲基质中的指甲干细胞在深冬眠期并没有退出细胞周期。因此,冬眠会以依赖体温的方式停止指甲生长。
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Nail growth arrest under low body temperature during hibernation
Growth and differentiation are reduced or stopped during hibernation, an energy conserving strategy in harsh seasons by lowered metabolism and body temperature. However, few studies evaluated this in a same individual using a non-invasive method. In this study, we applied a non-invasive tracking method of the nail growth throughout the hibernation period in the same hibernating animals, the Syrian hamster (Mesocricetus auratus). We found that nail growth was markedly suppressed during the hibernation period but rapidly recovered by the exit from the hibernation period. Our data suggest that nail growth was arrested during deep torpor, a hypometabolic and hypothermic state, but recovered during periodic arousal, a euthermic phase. Consistent with this, nail stem cells located in the nail matrix did not exit the cell cycle in the deep torpor. Thus, hibernation stops nail growth in a body temperature-dependent manner.
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