Abstract
To examine the possible miRNA molecular regulatory mechanisms during maternal uterine involution after delivery, we selected ovary and uterus tissues that are structurally connected as experimental materials. We employed Illumina HiSeq sequencing to screen and analyze the quantity and characteristics of miRNA in postpartum ewes in the methylergometrine-treated group and physiological saline control group. Results showed that 16 miRNAs were identified in the ovary libraries, including 4 known miRNAs and 12 novel miRNAs. In the uterus libraries, 54 miRNAs were identified, which included 5 known miRNAs and 49 novel miRNAs. At the same time, target gene prediction, GO annotation, and KEGG signaling pathway enrichment analysis were employed. We found that maternal uterine involution after delivery may involve two miRNA-target gene pairs, i.e., miRNA-200a-ZEB1 and YAP1. The YAP1/Hippo signaling pathway is used to construct an ovary–uterine axial regulatory mechanism to regulate the restoration of postpartum maternal uterine morphology and function. In view of this, the identification of miRNAs with significant differences in this study fills a gap in research on miRNAs associated with regulation of postpartum uterine recovery in ewes and provided an important reference for comprehensive understanding and in-depth research on the regulatory molecular network mechanism for postpartum uterine involution in small ruminants.
Highlights
Postpartum maternal reproductive function restoration usually involves two aspects, including the recovery of ovarian function and completed uterine involution
The results provide an important reference for comprehensive understanding and examining of the molecular network regulatory mechanisms in postpartum maternal uterine involution
The endometrium and myometrium will synthesize and secrete prostaglandin (PG) family hormones, which are transported from the utero-ovarian plexus (UOP) blood vessels to ovary–corpus luteum tissues and participate in ovary–corpus luteum degeneration
Summary
Postpartum maternal reproductive function restoration usually involves two aspects, including the recovery of ovarian function and completed uterine involution. The recovery of maternal uterus after delivery to a non-pregnant state is known as uterine involution. This plays a vital role in ensuring normal reproductive function and cyclical estrus in postpartum female animals (Sheldon and Dobson, 2004; Mahdi and Khallili, 2008). In many of the aforementioned connections, it is evident that the uterus and ovaries are dependent and interact with each other in morphology and regulation of endocrine secretion. The internal iliac artery supplies the uterus and is anastomosed with the ovarian arteries (branch of the aorta) and is connected to the inferior and superior vaginal blood vessels.
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