氨基酸限制、衰老和长寿:最新进展。

IF 3.3 Q2 GERIATRICS & GERONTOLOGY
Frontiers in aging Pub Date : 2024-05-02 eCollection Date: 2024-01-01 DOI:10.3389/fragi.2024.1393216
S N Austad, J R Smith, J M Hoffman
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引用次数: 0

摘要

各种所谓的饮食限制范例都显示出延长健康和生命的希望。所有这些范例都依赖于自由采食(以下简称 "自由采食"),而我们对动物的长期健康非常重视,因此几乎从未在动物身上使用过自由采食,无论是作为对照组,还是在实验的对照组和治疗组(食物限制本身除外)。尽管对其机理的认识还很模糊,但与自由采食的动物相比,在标准的实验室环境中,对实验动物进行一系列饮食控制,包括限制热量、低蛋白、蛋氨酸、支链氨基酸,甚至低异亮氨酸,都对健康有明显的益处。剩下的挑战是确定这些健康益处在更现实的环境中是否依然存在,以及它们如何与运动或新出现的老年保护药物等其他增进健康的治疗方法相互作用。在此,我们回顾了氨基酸限制对动物模型长寿的研究现状,并评估了其转化潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Amino acid restriction, aging, and longevity: an update.

Various so-called dietary restriction paradigms have shown promise for extending health and life. All such paradigms rely on ad libitum (hereafter ad lib) feeding, something virtually never employed in animals whose long-term health we value, either as a control or, except for food restriction itself, for both control and treatment arms of the experiment. Even though the mechanism(s) remain only vaguely understood, compared to ad lib-fed animals a host of dietary manipulations, including calorie restriction, low protein, methionine, branched-chain amino acids, and even low isoleucine have demonstrable health benefits in laboratory species in a standard laboratory environment. The remaining challenge is to determine whether these health benefits remain in more realistic environments and how they interact with other health enhancing treatments such as exercise or emerging geroprotective drugs. Here we review the current state of the field of amino acid restriction on longevity of animal models and evaluate its translational potential.

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CiteScore
3.00
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