猕猴和人类的端粒动态变化

Telomere dynamics in macaques and humans.

作者信息

Gardner Jeffrey P, Kimura Masayuki, Chai Weihang, Durrani Jameel F, Tchakmakjian Levon, Cao Xiaojian, Lu Xiaobin, Li Guanghui, Peppas Athanasios P, Skurnick Joan, Wright Woodring E, Shay Jerry W, Aviv Abraham

机构信息

The Center of Human Development and Aging, Cell Biology and Molecular Medicine, Department of Preventive Medicine and Community Health, University of Medicine and Dentistry of New Jersey, New Jersey Medical School, Newark, NJ 07103, USA.

出版信息

J Gerontol A Biol Sci Med Sci. 2007 Apr;62(4):367-74. doi: 10.1093/gerona/62.4.367.

DOI:10.1093/gerona/62.4.367

PMID:17452729

Abstract

In humans, telomere length in proliferating tissues shortens with age--a process accelerated with age-related diseases. Thus, telomere length and attrition with age in the nonhuman primate may serve as a useful paradigm for understanding telomere biology in humans. We examined telomere parameters in tissues of young and old Macaca fascicularis and compared them with several tissues from humans. Macaque telomeres were variable in length and exhibited partial synchrony (equivalence) within animals. They were longer than humans, partially because of longer subtelomeric segments. As skeletal muscle telomere length was unchanged with age, we used it as an internal reference to offset interanimal variation in telomere length. We identified age-dependent telomere attrition in lung, pancreas, skin, and thyroid. Similar to humans, telomerase activity was detected in spleen, thymus, digestive tract, and gonads. We conclude that factors that modify telomere attrition and aging in humans may also operate in the macaque.

摘要

在人类中，增殖组织中的端粒长度会随着年龄的增长而缩短，这一过程在与年龄相关的疾病中会加速。因此，非人类灵长类动物中端粒长度和随年龄的损耗可能是理解人类端粒生物学的有用范例。我们检测了年轻和年老食蟹猴组织中的端粒参数，并将它们与人类的几种组织进行了比较。猕猴的端粒长度各不相同，且在动物体内呈现出部分同步性（等效性）。它们比人类的端粒长，部分原因是端粒亚端粒区段更长。由于骨骼肌端粒长度不会随年龄变化，我们将其用作内部参照，以抵消动物间端粒长度的差异。我们在肺、胰腺、皮肤和甲状腺中发现了与年龄相关的端粒损耗。与人类相似，在脾脏、胸腺、消化道和性腺中检测到了端粒酶活性。我们得出结论，影响人类端粒损耗和衰老的因素在猕猴中可能也起作用。

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猕猴和人类的端粒动态变化

Telomere dynamics in macaques and humans.

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