Oxidative damage in the senescence-accelerated mouse

被引：33

作者：

Mori, A ^{[1
]}

Utsumi, K

Liu, JK

Hosokawa, M

机构：

[1] Okayama Univ, Sch Med, Inst Mol & Cellular Med, Dept Neurosci, Okayama 7000914, Japan

[2] Ctr Adult Dis, Inst Med Sci, Kurashiki, Okayama 7100824, Japan

[3] Kyoto Univ, Chest Dis Res Inst, Kyoto 6068397, Japan

来源：

TOWARDS PROLONGATION OF THE HEALTHY LIFE SPAN: PRACTICAL APPROACHES TO INTERVENTION | 1998年 / 854卷

关键词：

D O I：

10.1111/j.1749-6632.1998.tb09906.x

中图分类号：

R592 [老年病学]; C [社会科学总论];

学科分类号：

03 ; 0303 ; 100203 ;

摘要：

The senescence-accelerated mouse (SAM) exhibited a shortened life span (about 18 months) and early manifestation of various signs of senescence, including changes in physical activity, skin, and spinal curvature, The mechanism of senescence acceleration in SAM is thought to be related to free radical damage, Oxidative phosphorylation was estimated in liver mitochondria from SAMPS and the senescence-resistant subtrain, SAMR1, The respiratory control ratio decreased during aging, and the ATP/O, an index of ATP synthesis, was depressed at 18 months of age in SAMPS. DNP-dependent uncoupled respiration in liver mitochondria was markedly decreased, and active uptake of calcium was markedly dysfunctional with aging, These findings suggest that the functional disorders in mitochondria may be closely related to the shorter life span of SAMPS. White-footed (WF) mice can live at least to 5.5 years, when some animals are still capable of reproducing and their external body condition remains healthy, The mitochondrial functions were examined in the same way as in the SAM experiments, However, no particular finding responsible for their longevity was observed in WF mice at 3 and 12 months old, More comprehensive examinations on more aged WF mice are needed for explanation of their greater longevity.

引用

页码：239 / 250

页数：12

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