Lisa Noelle Cooper, Mohammad Y. Ansari, Grace Capshaw, Alex Galazyuk, Amanda M. Lauer, Cynthia F. Moss, Karen E. Sears, Mark Stewart, Emma C. Teeling, Gerald S. Wilkinson, Rachel C. Wilson, Thomas P. Zwaka, Rena Orman
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引用次数: 0
摘要
蝙蝠(翼手目)正在成为具有指导意义的衰老研究动物模型。与一些常见的实验室物种不同,蝙蝠符合衰老研究的一个核心标准:它们在野外或人工饲养条件下寿命很长,可达 20 年、30 年甚至超过 40 年。蝙蝠的健康衰老(即健康寿命)引起了人们的关注,由于蝙蝠不受病毒感染、明显的低肿瘤发生率和独特的 DNA 修复能力,它们有可能改善衰老人类的生活。与此同时,蝙蝠的长寿还允许积累与年龄相关的全身性病变,可以对这些病变进行详细检查和控制,特别是在圈养动物中。研究还发现了蝙蝠的其他重要优势。在多个方面,蝙蝠都比啮齿动物更适合模拟人类。在这篇综述中,我们将重点介绍蝙蝠研究中与衰老相关的八个不同领域:基因组测序、端粒和 DNA 修复;免疫和炎症;听力;月经和更年期;骨骼系统和脆弱性;神经生物学和神经退化;干细胞;衰老和死亡。这些例子证明了蝙蝠作为动物模型的广泛相关性,并指出了对人类衰老研究尤为重要的方向。
Bats as instructive animal models for studying longevity and aging
Bats (order Chiroptera) are emerging as instructive animal models for aging studies. Unlike some common laboratory species, they meet a central criterion for aging studies: they live for a long time in the wild or in captivity, for 20, 30, and even >40 years. Healthy aging (i.e., healthspan) in bats has drawn attention to their potential to improve the lives of aging humans due to bat imperviousness to viral infections, apparent low rate of tumorigenesis, and unique ability to repair DNA. At the same time, bat longevity also permits the accumulation of age-associated systemic pathologies that can be examined in detail and manipulated, especially in captive animals. Research has uncovered additional and critical advantages of bats. In multiple ways, bats are better analogs to humans than are rodents. In this review, we highlight eight diverse areas of bat research with relevance to aging: genome sequencing, telomeres, and DNA repair; immunity and inflammation; hearing; menstruation and menopause; skeletal system and fragility; neurobiology and neurodegeneration; stem cells; and senescence and mortality. These examples demonstrate the broad relevance of the bat as an animal model and point to directions that are particularly important for human aging studies.
期刊介绍:
Published on behalf of the New York Academy of Sciences, Annals of the New York Academy of Sciences provides multidisciplinary perspectives on research of current scientific interest with far-reaching implications for the wider scientific community and society at large. Each special issue assembles the best thinking of key contributors to a field of investigation at a time when emerging developments offer the promise of new insight. Individually themed, Annals special issues stimulate new ways to think about science by providing a neutral forum for discourse—within and across many institutions and fields.
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