Low circulating adropin levels in late-middle aged African Americans with poor cognitive performance.

IF 4.1 Q2 GERIATRICS & GERONTOLOGY
Geetika Aggarwal, Theodore K Malmstrom, John E Morley, Douglas K Miller, Andrew D Nguyen, Andrew A Butler
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Abstract

We recently reported accelerated cognitive decline in Europeans aged > 70 years with low circulating adropin levels. Adropin is a small, secreted peptide that is highly expressed in the human nervous system. Expression profiling indicate relationships between adropin expression in the human brain and pathways that affect dementia risk. Moreover, increased adropin expression or treatment using synthetic adropin improves cognition in mouse models of aging. Here we report that low circulating adropin concentrations associate with poor cognition (worst quintile for a composite score derived from the MMSE and semantic fluency test) in late-middle aged community-dwelling African Americans (OR = 0.775, P < 0.05; age range 45-65 y, n = 352). The binomial logistic regression controlled for sex, age, education, cardiometabolic disease risk indicators, and obesity. Previous studies using cultured cells from the brains of human donors suggest high expression in astrocytes. In snRNA-seq data from the middle temporal gyrus (MTG) of human donors, adropin expression is higher in astrocytes relative to other cell types. Adropin expression in all cell-types declines with advance age, but is not affected by dementia status. In cultured human astrocytes, adropin expression also declines with donor age. Additional analysis indicated positive correlations between adropin and transcriptomic signatures of energy metabolism and protein synthesis that are adversely affected by donor age. Adropin expression is also suppressed by pro-inflammatory factors. Collectively, these data indicate low circulating adropin levels are a potential early risk indicator of cognitive impairment. Declining adropin expression in the brain is a plausible link between aging, neuroinflammation, and risk of cognitive decline.

Abstract Image

认知能力较差的中晚期非裔美国人的低循环adropin水平。
我们最近报道了欧洲老年人认知能力的加速下降 > 70年来adropin循环水平较低。肾上腺素是一种分泌的小肽,在人类神经系统中高度表达。表达谱显示人脑中adropin的表达与影响痴呆风险的途径之间的关系。此外,增加adropin表达或使用合成adropin治疗可改善衰老小鼠模型的认知能力。在这里,我们报告了低循环adropin浓度与中晚期居住在社区的非裔美国人的认知能力差(MMSE和语义流利性测试得出的综合评分的最差五分位数)有关(OR = 0.775,P
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CiteScore
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