Aged Brain Metabolomics Study by Metabolic Profiling Analysis of Amino Acids, Organic Acids, and Fatty Acids in Cortex, Cerebellum, Hypothalamus, and Hippocampus of Rats.

IF 3.3 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Frontiers in bioscience (Landmark edition) Pub Date : 2024-08-22 DOI:10.31083/j.fbl2908306
Byeongchan Choi, Moongi Ji, Songjin Oh, Youngbae Kim, Subin Choi, Hyun Woo Kim, Hae Young Chung, Man-Jeong Paik
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Abstract

Background: Aging is a progressive process characterized by weakness in brain function. Although metabolomics studies on the brain related with aging have been conducted, it is not yet fully understood. A systematic metabolomics study was performed to search for biomarkers and monitor altered metabolism in various brain tissues of the cortex, cerebellum, hypothalamus, and hippocampus of young (8 months old) and old rats (22 months old).

Methods: Simultaneous profiling analysis of amino acids (AAs), organic acids (OAs), and fatty acids (FAs) in the brain tissues of young and old rats were performed by gas chromatography-tandem mass spectrometry.

Results: Under optimal conditions, AA, OA, and FA profiling methods showed good linearity (r ≥0.995) with limit of detection of ≤30 and 73.2 ng and limit of quantification of ≤90.1 and 219.5 ng, respectively. Repeatability varied from 0.4 to 10.4 and 0.8 to 14.8% relative standard deviation and accuracy varied from -11.3 to 10.3 and -12.8 to 14.1% relative error, respectively. In the profiling analysis, total 32, 43, 45, and 30 metabolites were determined in cortex, cerebellum, hypothalamus, and hippocampus, respectively. In statistical analysis, eight AAs (alanine, valine, leucine, isoleucine, threonine, serine, proline, and phenylalanine) in the cortex and four metabolites (alanine, phenylalanine, 3-hydoxypropionic acid, and eicosadienoic acid) in the cerebellum were significantly evaluated (Q-value <0.05, variable importance in projection scores ≥1.0). In all brain tissues, the score plots of orthogonal partial least square discriminant analysis were clearly separated between the young and old groups.

Conclusions: Metabolomics results indicate that mechanistic targets of rapamycin complex 1, branched chain-amino acid, and energy metabolism are related to inflammation and mitochondrial dysfunction in the brain during aging. Thus, these results may explain the characteristic metabolism of brain aging.

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通过对大鼠皮层、小脑、下丘脑和海马中氨基酸、有机酸和脂肪酸的代谢轮廓分析进行老年脑代谢组学研究
背景:衰老是一个以大脑功能衰弱为特征的渐进过程。虽然已经开展了与衰老相关的脑代谢组学研究,但人们对衰老还没有完全了解。我们进行了一项系统的代谢组学研究,以寻找生物标志物并监测年轻大鼠(8 个月大)和年老大鼠(22 个月大)大脑皮层、小脑、下丘脑和海马等各种脑组织的代谢变化:方法:采用气相色谱-串联质谱法同时分析年轻大鼠和老年大鼠脑组织中的氨基酸(AA)、有机酸(OA)和脂肪酸(FA):在最佳条件下,AA、OA和FA分析方法的线性关系良好(r≥0.995),检出限分别为≤30和73.2 ng,定量限分别为≤90.1和219.5 ng。重复性的相对标准偏差分别为 0.4 至 10.4 和 0.8 至 14.8%,准确度的相对误差分别为 -11.3 至 10.3 和 -12.8 至 14.1%。在图谱分析中,分别在大脑皮层、小脑、下丘脑和海马中测定了32、43、45和30种代谢物。在统计分析中,对大脑皮层的 8 种 AA(丙氨酸、缬氨酸、亮氨酸、异亮氨酸、苏氨酸、丝氨酸、脯氨酸和苯丙氨酸)和小脑的 4 种代谢物(丙氨酸、苯丙氨酸、3-羟基丙酸和二十二碳二烯酸)进行了显著评估(Q 值结论):代谢组学研究结果表明,雷帕霉素复合物 1、支链氨基酸和能量代谢的机理靶点与衰老过程中大脑的炎症和线粒体功能障碍有关。因此,这些结果可以解释大脑衰老的代谢特征。
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