膳食蛋氨酸限制的起源、演变和未来。
The Origins, Evolution, and Future of Dietary Methionine Restriction.
机构信息
Laboratory of Nutrient Sensing and Adipocyte Signaling, Pennington Biomedical Research Center, Baton Rouge, Louisiana, USA; email:
Department of Nutrition, Georgia State University, Atlanta, Georgia, USA.
出版信息
Annu Rev Nutr. 2022 Aug 22;42:201-226. doi: 10.1146/annurev-nutr-062320-111849. Epub 2022 May 19.
Abstract
The original description of dietary methionine restriction (MR) used semipurified diets to limit methionine intake to 20% of normal levels, and this reduction in dietary methionine increased longevity by ∼30% in rats. The MR diet also produces paradoxical increases in energy intake and expenditure and limits fat deposition while reducing tissue and circulating lipids and enhancing overall insulin sensitivity. In the years following the original 1993 report, a comprehensive effort has been made to understand the nutrient sensing and signaling systems linking reduced dietary methionine to the behavioral, physiological, biochemical, and transcriptional components of the response. Recent work has shown that transcriptional activation of hepatic fibroblast growth factor 21 (FGF21) is a key event linking the MR diet to many but not all components of its metabolic phenotype. These findings raise the interesting possibility of developing therapeutic, MR-based diets that produce the beneficial effects of FGF21 by nutritionally modulating its transcription and release.
摘要
最初对饮食蛋氨酸限制(MR)的描述使用半纯化饮食将蛋氨酸摄入量限制在正常水平的 20%,这种饮食中蛋氨酸的减少使大鼠的寿命延长了约 30%。MR 饮食还会产生能量摄入和支出的矛盾增加,并限制脂肪沉积,同时降低组织和循环脂质,提高整体胰岛素敏感性。在最初的 1993 年报告之后的几年里,人们做出了全面的努力来理解营养素感应和信号系统,将低饮食蛋氨酸与反应的行为、生理、生化和转录成分联系起来。最近的工作表明,肝成纤维细胞生长因子 21(FGF21)的转录激活是将 MR 饮食与许多但不是其代谢表型的所有成分联系起来的关键事件。这些发现提出了一个有趣的可能性,即通过营养调节其转录和释放来开发基于 MR 的治疗性饮食,从而产生 FGF21 的有益作用。
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