小鼠孕期母胎组织中的差异衰老
Differential senescence in feto-maternal tissues during mouse pregnancy.
作者信息
Bonney Elizabeth A, Krebs Kendall, Saade George, Kechichian Talar, Trivedi Jayshil, Huaizhi Yin, Menon Ramkumar
机构信息
Department of Obstetrics, Gynecology and Reproductive Sciences, University of Vermont College of Medicine, Burlington, VT 05404, USA.
Department of Obstetrics & Gynecology, The University of Texas Medical Branch at Galveston, Galveston, TX 77555-1062, USA.
出版信息
Placenta. 2016 Jul;43:26-34. doi: 10.1016/j.placenta.2016.04.018. Epub 2016 Apr 24.
BACKGROUND
Human studies show that fetal membranes have a limited lifespan and undergo telomere-dependent cellular senescence that is augmented by oxidative stress and mediated by p38 mitogen activated protein kinase (MAPK). Further, these studies suggest that fetal membranes are anatomically and physiologically positioned to transmit senescence signals that may initiate parturition at term.
METHODS
Longitudinal evaluation of feto-maternal tissues from mouse pregnancies was undertaken to determine the molecular progression of senescence during normal pregnancy. On days 10-18 of gestation, C57BL/6 mice were euthanized. Fetal membranes, placenta, and decidua/uterus were collected. Tissues were examined for Telomere length (TL) and the presence of Phosphorylated (P) p38MAPK and p53, p21 and senescence associated β-Galactosidase (SA- β-Gal).
FINDINGS
Linear regression modeling of observed telomere length as a function of gestational age revealed that beta (β), the slope of the linear regression was negative and significantly different from zero for each tissue (fetal membranes, β = -0.1901 ± 0.03125, p < 0.0001; placenta β = -0.09000 ± 0.03474, p = 0.0135; decidua/uterus β = -0.1317 ± 0.03264, p = 0.0003). Progressive activation p38MAPK was observed in all tissues from days 10 to day18, with the highest activation observed in fetal membranes. Activation of p53 was progressive in fetal membranes. In contrast, active p53 was constitutive in placenta and decidua/uterus throughout gestation. Detection of p21 indicated that pro-senescent change was higher in all compartments on day 18 as compared to other days. The number of SA-β-Gal positive cells increased in fetal membranes as gestation progressed. However, in placenta and uterus and decidua/uterus SA-β-Gal was seen only in days 15 and 18.
CONCLUSIONS
Telomere dependent p38 and p53 mediated senescence progressed in mouse fetal membranes as gestation advanced. Although senescence is evident, telomere dependent events were not dominant in placenta or decidua/uterus. Fetal membrane senescence may significantly contribute to mechanisms of parturition at term.
背景
人体研究表明,胎膜的寿命有限,会经历端粒依赖性细胞衰老,氧化应激会加剧这种衰老,且由p38丝裂原活化蛋白激酶(MAPK)介导。此外,这些研究表明,胎膜在解剖学和生理学上处于传递衰老信号的位置,这些信号可能在足月时启动分娩。
方法
对小鼠妊娠期间的母胎组织进行纵向评估,以确定正常妊娠期间衰老的分子进程。在妊娠第10 - 18天,对C57BL/6小鼠实施安乐死。收集胎膜、胎盘和蜕膜/子宫。检测组织的端粒长度(TL)以及磷酸化(P)p38MAPK、p53、p21和衰老相关β - 半乳糖苷酶(SA - β - Gal)的存在情况。
研究结果
将观察到的端粒长度作为胎龄的函数进行线性回归建模,结果显示,线性回归的斜率β对于每个组织均为负值且显著不同于零(胎膜,β = -0.1901 ± 0.03125,p < 0.0001;胎盘β = -0.09000 ± 0.03474,p = 0.0135;蜕膜/子宫β = -0.1317 ± 0.03264,p = 0.0003)。在第10天至第18天,所有组织中均观察到p38MAPK的逐渐激活,其中胎膜中的激活程度最高。p53在胎膜中逐渐激活。相比之下,在整个妊娠期,胎盘和蜕膜/子宫中的p53呈组成型激活。p21的检测表明,与其他天数相比,在第18天所有组织中的促衰老变化更高。随着妊娠进展,胎膜中SA - β - Gal阳性细胞数量增加。然而,在胎盘、子宫和蜕膜/子宫中,仅在第15天和第18天观察到SA - β - Gal。
结论
随着妊娠进展,小鼠胎膜中发生了端粒依赖性p38和p53介导的衰老。尽管衰老明显,但端粒依赖性事件在胎盘或蜕膜/子宫中并不占主导。胎膜衰老可能对足月分娩机制有显著贡献。
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