Adropin与人类衰老相关的神经病理学相关,并改善衰老小鼠的认知功能。

IF 5.4 Q1 GERIATRICS & GERONTOLOGY
Subhashis Banerjee, Sarbani Ghoshal, Clemence Girardet, Kelly M DeMars, Changjun Yang, Michael L Niehoff, Andrew D Nguyen, Prerana Jayanth, Brittany A Hoelscher, Fenglian Xu, William A Banks, Kim M Hansen, Jinsong Zhang, Eduardo Candelario-Jalil, Susan A Farr, Andrew A Butler
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引用次数: 15

摘要

adropin是一种在大脑中高度表达的分泌肽,其神经功能尚未被研究。在人类中,adropin在星形胶质细胞中高度表达,并在出生后大脑发育的关键时期达到峰值。对adropin表达相关转录本的基因富集分析表明,与衰老相关的神经退行性疾病的相关过程随着年龄和痴呆状态的变化而变化,可能表明幸存者偏见。在75岁被诊断为痴呆的人群中,adropin与参与线粒体过程的基因呈正相关。在没有痴呆的“老者”中,adropin的表达与形态发生和突触功能呈正相关。在原代培养的神经元中,强有力的神经营养反应与支持神经网络发育和功能的adropin一致。Adropin在老年人中的表达也与tau相关神经病变和炎症的蛋白质标志物呈正相关,特别是在那些没有痴呆的人中。用18月龄C57BL/6J小鼠研究脑adropin表达变化对神经系统衰老的影响。在小鼠中,adropin在神经元、少突胶质细胞祖细胞、少突胶质细胞和小胶质细胞中表达,并与参与神经变性和细胞代谢的基因群表现出相关关系。利用转基因技术增加adropin的表达可改善老年小鼠的空间学习和记忆、新物体识别、对新环境的适应能力,并减少炎症mRNA标记物。用合成adropin肽治疗还可以逆转与年龄相关的认知功能下降,并影响参与形态发生和细胞代谢的基因表达。总的来说,这些结果建立了adropin表达和神经能量代谢之间的联系,并指出了对抗神经衰老的潜在治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Adropin correlates with aging-related neuropathology in humans and improves cognitive function in aging mice.

Adropin correlates with aging-related neuropathology in humans and improves cognitive function in aging mice.

Adropin correlates with aging-related neuropathology in humans and improves cognitive function in aging mice.

Adropin correlates with aging-related neuropathology in humans and improves cognitive function in aging mice.

The neural functions of adropin, a secreted peptide highly expressed in the brain, have not been investigated. In humans, adropin is highly expressed in astrocytes and peaks during critical postnatal periods of brain development. Gene enrichment analysis of transcripts correlating with adropin expression suggests processes relevant to aging-related neurodegenerative diseases that vary with age and dementia state, possibly indicating survivor bias. In people aged <40 y and 'old-old' (>75 y) diagnosed with dementia, adropin correlates positively with genes involved in mitochondrial processes. In the 'old-old' without dementia adropin expression correlates positively with morphogenesis and synapse function. Potent neurotrophic responses in primary cultured neurons are consistent with adropin supporting the development and function of neural networks. Adropin expression in the 'old-old' also correlates positively with protein markers of tau-related neuropathologies and inflammation, particularly in those without dementia. How variation in brain adropin expression affects neurological aging was investigated using old (18-month) C57BL/6J mice. In mice adropin is expressed in neurons, oligodendrocyte progenitor cells, oligodendrocytes, and microglia and shows correlative relationships with groups of genes involved in neurodegeneration and cellular metabolism. Increasing adropin expression using transgenesis improved spatial learning and memory, novel object recognition, resilience to exposure to new environments, and reduced mRNA markers of inflammation in old mice. Treatment with synthetic adropin peptide also reversed age-related declines in cognitive functions and affected expression of genes involved in morphogenesis and cellular metabolism. Collectively, these results establish a link between adropin expression and neural energy metabolism and indicate a potential therapy against neurological aging.

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来源期刊
NPJ Aging and Mechanisms of Disease
NPJ Aging and Mechanisms of Disease Medicine-Geriatrics and Gerontology
自引率
0.00%
发文量
0
审稿时长
8 weeks
期刊介绍: npj Aging and Mechanisms of Disease is an online open access journal that provides a forum for the world’s most important research in the fields of aging and aging-related disease. The journal publishes papers from all relevant disciplines, encouraging those that shed light on the mechanisms behind aging and the associated diseases. The journal’s scope includes, but is not restricted to, the following areas (not listed in order of preference): • cellular and molecular mechanisms of aging and aging-related diseases • interventions to affect the process of aging and longevity • homeostatic regulation and aging • age-associated complications • translational research into prevention and treatment of aging-related diseases • mechanistic bases for epidemiological aspects of aging-related disease.
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