Repopulation of autophagy-deficient stromal cells with autophagy-intact cells after repeated breeding in uterine mesenchyme-specific Atg7 knockout mice.

IF 1.8 Q3 OBSTETRICS & GYNECOLOGY Clinical and Experimental Reproductive Medicine-CERM Pub Date : 2023-09-01 DOI:10.5653/cerm.2023.05876
Ji-Eun Oh, Sojung Kwon, Hyunji Byun, Haengseok Song, Hyunjung Jade Lim
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Abstract

Objective: Autophagy is highly active in ovariectomized mice experiencing hormone deprivation, especially in the uterine mesenchyme. Autophagy is responsible for the turnover of vasoactive factors in the uterus, which was demonstrated in anti-Müllerian hormone receptor type 2 receptor (Amhr2)-Cre-driven autophagy-related gene 7 (Atg7) knockout (Amhr-Cre/Atg7f/f mice). In that study, we uncovered a striking difference in the amount of sequestosome 1 (SQSTM1) accumulation between virgin mice and breeder mice with the same genotype. Herein, we aimed to determine whether repeated breeding changed the composition of mesenchymal cell populations in the uterine stroma.

Methods: All female mice used in this study were of the same genotype. Atg7 was deleted by Amhr2 promoter-driven Cre recombinase in the uterine stroma and myometrium, except for a triangular stromal region on the mesometrial side. Amhr-Cre/Atg7f/f female mice were divided into two groups: virgin mice with no mating history and aged between 11 and 12 months, and breeder mice with at least 6-month breeding cycles with multiple pregnancies and aged around 12 months. The uteri were used for Western blotting and immunofluorescence staining.

Results: SQSTM1 accumulation, representing Atg7 deletion and halted autophagy, was much higher in virgin mice than in breeders. Breeders showed reduced accumulation of several vasoconstrictive factors, which are potential autophagy targets, in the uterus, suggesting that the uterine stroma was repopulated with autophagy-intact cells during repeated pregnancies.

Conclusion: Multiple pregnancies seem to have improved the uterine environment by replacing autophagy-deficient cells with autophagy-intact cells, providing evidence of cell mixing.

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子宫间充质特异性Atg7基因敲除小鼠反复繁殖后自噬缺陷间质细胞与自噬完整细胞的再生。
目的:在激素剥夺的去卵巢小鼠中,自噬高度活跃,尤其是在子宫间质中。自噬负责子宫内血管活性因子的转换,这在抗勒氏激素受体2型受体(Amhr2)- cre驱动的自噬相关基因7 (Atg7)敲除(Amhr-Cre/Atg7f/f小鼠)中得到证实。在该研究中,我们发现了具有相同基因型的未交配小鼠和繁殖小鼠之间sequestosome 1 (SQSTM1)积累量的显著差异。在此,我们旨在确定重复繁殖是否会改变子宫间质细胞群的组成。方法:本研究选用的雌性小鼠均为同一基因型。Atg7被Amhr2启动子驱动的Cre重组酶在子宫间质和子宫肌层中删除,但在子宫系膜侧的一个三角形间质区域除外。Amhr-Cre/Atg7f/f雌性小鼠分为两组,一组为11 ~ 12月龄,无交配史的未交配小鼠,另一组为12月龄,多胎妊娠,繁殖周期至少6个月的繁殖小鼠。子宫进行免疫印迹和免疫荧光染色。结果:代表Atg7缺失和停止自噬的SQSTM1积累在处女小鼠中比在育种小鼠中高得多。育种者显示子宫内几种血管收缩因子的积累减少,这些因子是潜在的自噬靶点,这表明子宫间质在重复妊娠期间重新填充了自噬完整的细胞。结论:多胎妊娠似乎通过用完整的自噬细胞取代缺乏自噬的细胞改善了子宫环境,提供了细胞混合的证据。
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