Ang Claire J, Skokan Taylor D, McKinley Kara L
Department of Stem Cell and Regenerative Biology, Harvard University, Cambridge, Massachusetts, USA; email:
Department of Molecular and Cellular Biology, Harvard University, Cambridge, Massachusetts, USA.
Annu Rev Cell Dev Biol. 2023 Oct 16;39:197-221. doi: 10.1146/annurev-cellbio-011723-021442.
The uterine lining (endometrium) regenerates repeatedly over the life span as part of its normal physiology. Substantial portions of the endometrium are shed during childbirth (parturition) and, in some species, menstruation, but the tissue is rapidly rebuilt without scarring, rendering it a powerful model of regeneration in mammals. Nonetheless, following some assaults, including medical procedures and infections, the endometrium fails to regenerate and instead forms scars that may interfere with normal endometrial function and contribute to infertility. Thus, the endometrium provides an exceptional platform to answer a central question of regenerative medicine: Why do some systems regenerate while others scar? Here, we review our current understanding of diverse endometrial disruption events in humans, nonhuman primates, and rodents, and the associated mechanisms of regenerative success and failure. Elucidating the determinants of these disparate repair processes promises insights into fundamental mechanisms of mammalian regeneration with substantial implications for reproductive health.
子宫内膜作为其正常生理功能的一部分,在整个生命周期中会反复再生。在分娩(生产)过程中,以及在某些物种中在月经期间,子宫内膜的大部分会脱落,但该组织会迅速重建且不留疤痕,使其成为哺乳动物再生的有力模型。然而,在遭受一些攻击后,包括医疗程序和感染,子宫内膜无法再生,反而形成疤痕,这些疤痕可能会干扰正常的子宫内膜功能并导致不孕。因此,子宫内膜为回答再生医学的一个核心问题提供了一个特殊的平台:为什么有些系统能够再生而有些却会形成疤痕?在这里,我们综述了目前对人类、非人灵长类动物和啮齿动物中各种子宫内膜破坏事件的理解,以及与之相关的再生成功与失败的机制。阐明这些不同修复过程的决定因素有望深入了解哺乳动物再生的基本机制,对生殖健康具有重大意义。