狨猴和猕猴认知老化的平行模式

Casey R Vanderlip, Megan L Jutras, Payton A Asch, Stephanie Y Zhu, Monica N Lerma, Elizabeth A Buffalo, Courtney Glavis-Bloom
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摘要

随着年龄的增长,有些人会出现认知障碍,而有些人则不会。当出现认知障碍时,认知障碍在各个认知领域的表现并不一致,不同个体的认知障碍严重程度也不尽相同。与转化相关的模型系统对于了解这种差异的神经生物学驱动因素至关重要,这对于揭示大脑易受衰老影响的机制至关重要。因此,非人类灵长类动物由于与人类具有共同的行为、神经解剖和与年龄相关的神经病理学特征而显得尤为重要。几十年来,猕猴一直是研究认知衰老神经生物学的主要非人灵长类动物模型。最近,普通狨猴因其寿命短、便于进行纵向研究而成为这项工作的有利模型。尽管狨猴作为模型越来越受欢迎,但狨猴是否表现出与猕猴和人类相似的与年龄相关的认知障碍模式仍有待探索。为了解决狨猴作为认知衰老模型在发展和评估方面的这一主要局限性,我们在相同的工作记忆任务中直接比较了猕猴和狨猴的工作记忆能力与年龄的函数关系。我们的结果表明,狨猴和猕猴表现出非常相似的与年龄相关的工作记忆缺陷,这凸显了狨猴作为神经科学界认知衰老研究模型的价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parallel patterns of cognitive aging in marmosets and macaques
As humans age, some experience cognitive impairment while others do not. When impairment does occur, it is not expressed uniformly across cognitive domains and varies in severity across individuals. Translationally relevant model systems are critical for understanding the neurobiological drivers of this variability, which is essential to uncovering the mechanisms underlying the brain's susceptibility to the effects of aging. As such, non-human primates are particularly important due to shared behavioral, neuroanatomical, and age-related neuropathological features with humans. For many decades, macaque monkeys have served as the primary non-human primate model for studying the neurobiology of cognitive aging. More recently, the common marmoset has emerged as an advantageous model for this work due to its short lifespan that facilitates longitudinal studies. Despite their growing popularity as a model, whether marmosets exhibit patterns of age-related cognitive impairment comparable to those observed in macaques and humans remains unexplored. To address this major limitation for the development and evaluation of the marmoset as a model of cognitive aging, we directly compared working memory ability as a function of age in macaques and marmosets on the identical working memory task. Our results demonstrate that marmosets and macaques exhibit remarkably similar age-related working memory deficits, highlighting the value of the marmoset as a model for cognitive aging research within the neuroscience community.
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