Life-extending dietary restriction, but not dietary supplementation of branched-chain amino acids, can increase organismal oxidation rates of individual branched-chain amino acids by grasshoppers.

Q3 Medicine

Nutrition and Healthy Aging Pub Date : 2019-12-19 DOI:10.3233/NHA-190073

J D Hatle, A Karjasevic, E Rehfeldt, F S Nagle, L J Milano, S Patel, D Hiatt, M D McCue

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Abstract

Background: Life-extending dietary restriction increases energy demands. Branched-chain amino acids (BCAAs), at high levels, may be detrimental to healthspan by activating the mechanistic Target of Rapamycin (mTOR). Whether organismal oxidation of BCAAs increases upon dietary restriction is unknown.

Objective: Test whether dietary restriction (DR, which creates an energy deficit) or supplemental dietary BCAAs (superfluous BCAAs) increases oxidation of BCAAs, potentially reducing their levels to improve healthspan.

Methods: Grasshoppers were reared to middle-age on one of four diets, each a level of lettuce feeding and a force-fed solution: 1) ad libitum lettuce & buffer, 2) ad libitum lettuce & supplemental BCAAs, 3) DR lettuce & buffer, and 4) DR lettuce & supplemental BCAAs. On trial days, grasshoppers were force-fed one ¹³C-1-BCAA (isoleucine, leucine, or valine). Breath was collected and tested for ¹³CO₂, which represents organismal oxidation of the amino acid. Additional trials re-tested oxidation of leucine (the most potent activator of mTOR) in both females and males on dietary restriction.

Results: Dietary restriction generally increased cumulative oxidation of each BCAA in females and hungry males over ∼8 hr. Results were consistent for isoleucine and valine, but less so for leucine. Supplementation of BCAAs, in combination with dietary restriction, increased isoleucine in hemolymph, with similar trends for leucine and valine. Despite this, supplementation of BCAAs did not alter oxidation of any BCAAs.

Conclusions: Dietary restriction can increase oxidation of BCAAs, likely due to an energy deficit. The increased oxidation may decrease available BCAAs for activation of mTOR and improve healthspan.

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延长寿命的饮食限制，而不是在饮食中补充支链氨基酸，可以增加蝗虫对单个支链氨基酸的有机氧化速率。

背景:延长寿命的饮食限制增加了能量需求。高水平的支链氨基酸(BCAAs)可能通过激活雷帕霉素(mTOR)的机制靶标而对健康有害。BCAAs的有机氧化是否因饮食限制而增加尚不清楚。目的:测试饮食限制(DR，这会造成能量不足)或补充膳食支链氨基酸(多余的支链氨基酸)是否会增加支链氨基酸的氧化，从而可能降低其水平以改善健康状况。方法:将蚱蜢饲养至中年，饲喂4种饲粮，每种饲粮分别饲喂1个水平的生菜和强饲溶液:1)随意生菜和缓冲液，2)随意生菜和补充支链氨基酸，3)DR生菜和缓冲液，4)DR生菜和补充支链氨基酸。在试验日，蚱蜢被强制喂食一种13C-1-BCAA(异亮氨酸、亮氨酸或缬氨酸)。呼气被收集并测试了13CO2，这代表了氨基酸的有机氧化。额外的试验重新测试了在饮食限制的女性和男性中亮氨酸(mTOR最有效的激活剂)的氧化。结果:饮食限制通常会增加女性和饥饿男性在约8小时内每种BCAA的累积氧化。异亮氨酸和缬氨酸的结果一致，但亮氨酸的结果不一致。补充支链氨基酸，结合饮食限制，增加了血淋巴中的异亮氨酸，亮氨酸和缬氨酸也有类似的趋势。尽管如此，补充支链氨基酸并没有改变任何支链氨基酸的氧化。结论:饮食限制可以增加支链氨基酸的氧化，可能是由于能量不足。增加的氧化可能会减少可用的支链氨基酸激活mTOR和改善健康寿命。

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来源期刊

Nutrition and Healthy Aging Agricultural and Biological Sciences-Food Science

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： Nutrition and Healthy Aging is an international forum for research on nutrition as a means of promoting healthy aging. It is particularly concerned with the impact of nutritional interventions on the metabolic and molecular mechanisms which modulate aging and age-associated diseases, including both biological responses on the part of the organism itself and its micro biome. Results emanating from both model organisms and clinical trials will be considered. With regards to the latter, the journal will be rigorous in only accepting for publication well controlled, randomized human intervention trials that conform broadly with the current EFSA and US FDA guidelines for nutritional clinical studies. The journal will publish research articles, short communications, critical reviews and conference summaries, whilst open peer commentaries will be welcomed.