Effects of hypoxia on reproductive aging and offspring health in female mice
10.3760/cma.j.cn101441-20210522-00236
- VernacularTitle:缺氧对雌性小鼠生殖衰老及其子代健康的影响
- Author:
Guiyuan HE
1
;
Xiaoyu GAO
;
Nuo JIN
;
Yan LI
;
Wenju HAN
;
Han WEI
;
Xiaoguang SHAO
Author Information
1. 辽宁省大连市妇女儿童医疗中心(集团),大连市生殖生命与母子遗传重点实验室,大连 116037
- Publication Type:Journal Article
- Keywords:
Hypoxia;
Ovarian;
Aging;
Birth body mass
- From:
Chinese Journal of Reproduction and Contraception
2022;42(9):917-923
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the relationship between hypoxia and fertility in female mice.Methods:Twenty-one clean-grade 14-week Kunming female mice were selected and divided into hypoxia groups ( n=11) and normoxia groups ( n=10), and raised under low oxygen concentration (10%-20.5%) and normal oxygen concentration (20.5%) respectively. Four weeks later, hypoxic mice were returned to normoxia environment. Two groups of 21 females were mated with males, the quantity of the litters and body mass at birth were recorded. These females were maintained until 43 weeks to repeat the hypoxic and mating experiments described above. Two weeks after the secondary hypoxia, mating and delivery, these female mice were sampled under anesthesia for inner canthus blood, and the blood estradiol and progesterone were measured by a Roche biochemical analyzer. The mice were put to death by giving over dosage of anesthesia drug; oocytes, ovaries and uterus tissues were obtained, for detection of reactive oxygen species of the oocytes, and HE staining of the ovaries and uterus. Results:The number of litters produced in the young hypoxia group was 13.64±3.35, which was slightly higher than that in the young normoxia group (13.22±1.92), but the difference was not significant ( P=0.734). The birth body mass of the litters in the young hypoxic group [(1.73±0.20) g] was significantly lower than that in the young normoxic group [(1.82±0.22) g, P<0.001]. The mean number of litters in the old hypoxic group (5.11±3.58) was significantly higher than that in the old normoxic group (1.38±2.56, P=0.022). Compared with 23 weeks female normoxia mice, estradiol levels decreased in both the old hypoxia and old normoxic groups ( P=0.019; P=0.035), but there was no significant difference in estradiol level between old hypoxia and old normoxic groups ( P=0.913). There was no significant difference in reactive oxygen species of the oocytes between old normoxic and old hypoxic mice ( P>0.05). Tissue HE staining showed that the old normoxic mice had obvious uterine hyperemia, and the outlook of the uterus of the old hypoxic mice was normal. The old hypoxia mice had more antral follicles than the normoxic group and the size of the follicles was more even. Conclusion:The hypoxia mice produced more offspring than the normoxia mice, however, the birth body mass of the offspring was significantly lower than that in normoxic mice. The ovaries of the old hypoxic mice contained more follicles than the old normoxic mice.
