Exercise-induced re-programming of age-related metabolic changes in microglia is accompanied by a reduction in senescent cells

小胶质细胞 糖酵解 内分泌学 认知功能衰退 内科学 炎症 医学 生物 新陈代谢 疾病 痴呆
作者
Virginia Mela,Bibiana Castagna Mota,Mark Thomas Milner,Aoife McGinley,Kingston H. G. Mills,Aine Marie Kelly,Marina A. Lynch
出处
期刊:Brain Behavior and Immunity [Elsevier BV]
卷期号:87: 413-428 被引量:89
标识
DOI:10.1016/j.bbi.2020.01.012
摘要

Microglial activation and neuroinflammatory changes are characteristic of the aged brain and contribute to age-related cognitive impairment. Exercise improves cognitive function in aged animals, perhaps because of a modulatory effect on microglial activation. Recent evidence indicates that inflammatory microglia are glycolytic, driven by an increase in 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 3 (PFKFB3), an enzyme that is described as the master regulator of glycolysis. Here we investigated whether microglia from aged animals exhibited a glycolytic signature and whether exercise exerted a modulatory effect on this metabolic profile. Young (4 month-old) and aged (18 month-old) mice were trained for 10 days on a treadmill. One day before sacrifice, animals were assessed in the novel object recognition and the object displacement tests. Animals were sacrificed after the last bout of exercise, microglial cells were isolated, cultured for 5 days and assessed for metabolic profile. Performance in both behavioural tests was impaired in sedentary aged animals and exercise attenuated this age-related effect. A significant increase in glycolysis, glycolytic capacity and PFKFB3 was observed in microglia from aged animals and exercise ameliorated these effects, while it also increased the phagocytic capacity of cells. The senescent markers, β-galactosidase and p16INK4A, were increased in microglia from sedentary aged mice, and expression of these markers was significantly decreased by exercise. The data demonstrate that the exercise-related improved cognition is orchestrated by a normalization of the metabolic profile and functionality of microglia.
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