Nutritional Neuroscience and Aging Laboratory, Pennington Biomedical Research Center, Louisiana State University System, 6400 Perkins Road, Baton Rouge, LA 70809, United States.
GeroScience, Inc., Pylesville, MD 21132, United States.
Ageing Res Rev. 2015 Mar;20:46-62. doi: 10.1016/j.arr.2014.11.005. Epub 2014 Dec 19.
Strong consensus exists regarding the most robust environmental intervention for attenuating aging processes and increasing healthspan and lifespan: calorie restriction (CR). Over several decades, this paradigm has been replicated in numerous nonhuman models, and has been expanded over the last decade to formal, controlled human studies of CR. Given that long-term CR can create heavy challenges to compliance in human diets, the concept of a calorie restriction mimetic (CRM) has emerged as an active research area within gerontology. In past presentations on this subject, we have proposed that a CRM is a compound that mimics metabolic, hormonal, and physiological effects of CR, activates stress response pathways observed in CR and enhances stress protection, produces CR-like effects on longevity, reduces age-related disease, and maintains more youthful function, all without significantly reducing food intake, at least initially. Over 16 years ago, we proposed that glycolytic inhibition could be an effective strategy for developing CRM. The main argument here is that inhibiting energy utilization as far upstream as possible provides the highest chance of generating a broad spectrum of CR-like effects when compared to targeting a singular molecular target downstream. As an initial candidate CRM, 2-deoxyglucose, a known anti-glycolytic, was shown to produce a remarkable phenotype of CR, but further investigation found that this compound produced cardiotoxicity in rats at the doses we had been using. There remains interest in 2DG as a CRM but at lower doses. Beyond the proposal of 2DG as a candidate CRM, the field has grown steadily with many investigators proposing other strategies, including novel anti-glycolytics. Within the realm of upstream targeting at the level of the digestive system, research has included bariatric surgery, inhibitors of fat digestion/absorption, and inhibitors of carbohydrate digestion. Research focused on downstream sites has included insulin receptors, IGF-1 receptors, sirtuin activators, inhibitors of mTOR, and polyamines. In the current review we discuss progress made involving these various strategies and comment on the status and future for each within this exciting research field.
对于减缓衰老过程、延长健康寿命和寿命,存在强烈的共识:限制卡路里摄入(CR)。几十年来,这一范式已在众多非人类模型中得到复制,并在过去十年扩展到 CR 的正式、对照人类研究。鉴于长期 CR 会给人类饮食的依从性带来巨大挑战,因此出现了一种卡路里限制模拟物(CRM)的概念,这是老年学领域的一个活跃研究领域。在过去关于这个主题的演讲中,我们提出 CRM 是一种模拟 CR 的代谢、激素和生理作用的化合物,激活 CR 中观察到的应激反应途径,并增强应激保护,对长寿产生类似 CR 的影响,减少与年龄相关的疾病,并保持更年轻的功能,而不会显著减少食物摄入,至少在最初阶段不会。16 年前,我们提出糖酵解抑制可能是开发 CRM 的有效策略。这里的主要论点是,与靶向下游单一分子靶标相比,尽可能在上游抑制能量利用提供了产生广泛的 CR 样作用的最大机会。作为最初的候选 CRM,2-脱氧葡萄糖,一种已知的抗糖酵解剂,被证明能产生显著的 CR 表型,但进一步的研究发现,这种化合物在我们一直使用的剂量下会在大鼠中产生心脏毒性。人们仍然对 2DG 作为 CRM 感兴趣,但剂量较低。除了提出 2DG 作为候选 CRM 之外,该领域一直在稳步发展,许多研究人员提出了其他策略,包括新型抗糖酵解剂。在消化系统水平的上游靶向领域,研究包括减肥手术、脂肪消化/吸收抑制剂和碳水化合物消化抑制剂。专注于下游部位的研究包括胰岛素受体、IGF-1 受体、sirtuin 激活剂、mTOR 抑制剂和多胺。在当前的综述中,我们讨论了涉及这些各种策略的进展,并对每个策略在这个令人兴奋的研究领域中的现状和未来进行了评论。
