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在端粒功能异常的小鼠中限制膳食硒对健康寿命和寿命产生相反影响。

Opposing impacts on healthspan and longevity by limiting dietary selenium in telomere dysfunctional mice.

作者信息

Wu Ryan T, Cao Lei, Mattson Elliot, Witwer Kenneth W, Cao Jay, Zeng Huawei, He Xin, Combs Gerald F, Cheng Wen-Hsing

机构信息

Department of Nutrition and Food Science, University of Maryland, College Park, MD, 20742, USA.

Department of Food Science, Nutrition and Health Promotion, Mississippi State University, Mississippi State, MS, 39762, USA.

出版信息

Aging Cell. 2017 Feb;16(1):125-135. doi: 10.1111/acel.12529. Epub 2016 Sep 21.

DOI:10.1111/acel.12529
PMID:27653523
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5242309/
Abstract

Selenium (Se) is a trace metalloid essential for life, but its nutritional and physiological roles during the aging process remain elusive. While telomere attrition contributes to replicative senescence mainly through persistent DNA damage response, such an aging process is mitigated in mice with inherently long telomeres. Here, weanling third generation telomerase RNA component knockout mice carrying short telomeres were fed a Se-deficient basal diet or the diet supplemented with 0.15 ppm Se as sodium selenate to be nutritionally sufficient throughout their life. Dietary Se deprivation delayed wound healing and accelerated incidence of osteoporosis, gray hair, alopecia, and cataract, but surprisingly promoted longevity. Plasma microRNA profiling revealed a circulating signature of Se deprivation, and subsequent ontological analyses predicted dominant changes in metabolism. Consistent with this observation, dietary Se deprivation accelerated age-dependent declines in glucose tolerance, insulin sensitivity, and glucose-stimulated insulin production in the mice. Moreover, DNA damage and senescence responses were enhanced and Pdx1 and MafA mRNA expression were reduced in pancreas of the Se-deficient mice. Altogether, these results suggest a novel model of aging with conceptual advances, whereby Se at low levels may be considered a hormetic chemical and decouple healthspan and longevity.

摘要

硒(Se)是一种生命必需的微量类金属元素,但其在衰老过程中的营养和生理作用仍不清楚。虽然端粒磨损主要通过持续的DNA损伤反应导致复制性衰老,但在具有固有长端粒的小鼠中,这种衰老过程会减缓。在此,携带短端粒的断奶第三代端粒酶RNA组分敲除小鼠被喂食缺硒基础日粮或补充有0.15 ppm硒(以硒酸钠形式)的日粮,以便在其一生中营养充足。饮食中缺硒会延迟伤口愈合,并加速骨质疏松症、白发、脱发和白内障的发生,但令人惊讶的是会延长寿命。血浆微小RNA分析揭示了缺硒的循环特征,随后的本体分析预测了代谢方面的主要变化。与这一观察结果一致,饮食中缺硒加速了小鼠葡萄糖耐量、胰岛素敏感性和葡萄糖刺激的胰岛素分泌随年龄增长的下降。此外,缺硒小鼠胰腺中的DNA损伤和衰老反应增强,Pdx1和MafA mRNA表达降低。总之,这些结果提出了一个具有概念性进展的衰老新模型,据此低水平的硒可能被视为一种具有 hormetic 效应的化学物质,并使健康期和寿命脱钩。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b907/5242309/39678877ce5f/ACEL-16-125-g006.jpg
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