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长期雷帕霉素处理可改善衰老小鼠的线粒体 DNA 质量。

Long term rapamycin treatment improves mitochondrial DNA quality in aging mice.

机构信息

Fred Hutchinson Cancer Research Center, Seattle, WA, USA.

Department of Agricultural Food and Nutritional Sciences, University of Alberta, Edmonton, Alberta, Canada.

出版信息

Exp Gerontol. 2018 Jun;106:125-131. doi: 10.1016/j.exger.2018.02.021. Epub 2018 Feb 24.

DOI:10.1016/j.exger.2018.02.021
PMID:29486228
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5911406/
Abstract

Age-induced mitochondrial DNA deletion mutations may underlie cell loss and tissue aging. Rapamycin extends mouse lifespan and modulates mitochondrial quality control. We hypothesized that reduced deletion mutation abundance may contribute to rapamycin's life extension effects. To test this hypothesis, genetically heterogeneous male and female mice were treated with rapamycin, compounded in chow at 14 or 42 ppm, from 9 months to 22 months of age. Mice under a 40% dietary restriction were included as a control known to protect mtDNA quality. To determine if chronic rapamycin treatment affects mitochondrial DNA quality, we assayed mtDNA deletion frequency and electron transport chain deficient fiber abundances in mouse quadriceps muscle. At 42 ppm rapamycin, we observed a 57% decrease in deletion frequency, a 2.8-fold decrease in ETC deficient fibers, and a 3.4-fold increase in the number of mice without electron transport chain deficient fibers. We observed a similar trend with the 14 ppm dose. DR significantly decreased ETC deficient fiber abundances with a trend toward lower mtDNA deletion frequency. The effects of rapamycin treatment on mitochondrial DNA quality were greatest in females at the highest dose. Rapamycin treatment at 14 ppm did not affect muscle mass or function. Dietary restriction also reduced deletion frequency and ETC deficient fibers. These data support the concept that the lifespan extending effects of rapamycin treatment result from enhanced mitochondrial DNA quality.

摘要

年龄引起的线粒体 DNA 缺失突变可能是细胞丢失和组织衰老的基础。雷帕霉素延长了小鼠的寿命并调节了线粒体的质量控制。我们假设减少缺失突变的丰度可能有助于雷帕霉素的延长寿命的效果。为了验证这一假设,使用含有 14 或 42ppm 雷帕霉素的饲料对遗传异质性的雄性和雌性小鼠进行处理,从 9 个月到 22 个月大。作为已知能保护 mtDNA 质量的对照,我们纳入了进行 40%饮食限制的小鼠。为了确定慢性雷帕霉素处理是否会影响线粒体 DNA 的质量,我们检测了小鼠股四头肌中的 mtDNA 缺失频率和电子传递链缺陷纤维的丰度。在 42ppm 的雷帕霉素处理下,我们观察到缺失频率降低了 57%,ETC 缺陷纤维减少了 2.8 倍,没有 ETC 缺陷纤维的小鼠数量增加了 3.4 倍。我们在 14ppm 剂量下观察到了类似的趋势。DR 显著降低了 ETC 缺陷纤维的丰度,mtDNA 缺失频率也有下降的趋势。在最高剂量下,雷帕霉素处理对雌性动物的线粒体 DNA 质量的影响最大。14ppm 的雷帕霉素处理不会影响肌肉质量或功能。饮食限制也降低了缺失频率和 ETC 缺陷纤维。这些数据支持这样的概念,即雷帕霉素治疗的延长寿命的效果是由于增强了线粒体 DNA 的质量。

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本文引用的文献

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