The Immune Barrier of Porcine Uterine Mucosa Differs Dramatically at Proliferative and Secretory Phases and Could Be Positively Modulated by Colonizing Microbiota.

Deping Han,Xue Yang,Jianfei Chen,Guoying Hua,Fan Tian,Chuyun Shao,Yanxin Hu,Yurong Tai,Hesham Y A Darwish,Jianyu Chang,Jing Wang,Yunfei Ma,Peng Sun

doi:10.3389/fimmu.2021.750808

Abstract

Endometrial immune response is highly associated with the homeostatic balance of the uterus and embryo development; however, the underlying molecular regulatory mechanisms are not fully elucidated. Herein, the porcine endometrium showed significant variation in mucosal immunity in proliferative and secretory phases by single-cell RNA sequencing. The loose arrangement and high motility of the uterine epithelium in the proliferative phase gave opportunities for epithelial cells and dendritic cells to cross talk with colonizing microbial community, guiding lymphocyte migration into the mucosal and glandular epithelium. The migrating lymphocytes were primarily NK and CD8+ T cells, which were robustly modulated by the chemokine signaling. In the secretory phase, the significantly strengthened mechanical mucosal barrier and increased immunoglobulin A alleviated the migration of lymphocytes into the epithelium when the neuro-modulation, mineral uptake, and amino acid metabolism were strongly upregulated. The noticeably increased intraepithelial lymphocytes were positively modulated by the bacteria in the uterine cavity. Our findings illustrated that significant mucosal immunity variation in the endometrium in the proliferative and secretory phases was closely related to intraepithelial lymphocyte migration, which could be modulated by the colonizing bacteria after cross talk with epithelial cells with higher expressions of chemokine.

Highlights

As an important reproductive organ, the uterus contributes to providing an appropriate site for embryonic implantation and development
By observing the MEC morphology, we found that in the PU they appeared foamy with a loose arrangement, FIGURE 4 | The epithelial cells in the proliferative phase (PU) and secretory phase (SU) show differential morphologies. (A) Interaction network between different cell populations were analyzed, and significant interactions between the epithelial cells and macrophages, monocytes, and dendritic cells were identified in the PU. (B) Chemokine genes and related receptor gene expressions were obviously detected in the epithelial cells, monocytes, dendritic cells, and lymphocytes. (C) Higher expressions of CCL4 in the mucosal epithelial cells were detected in the PU by immunohistochemistry. (D) The enriched Gene Ontology (GO) terms for highly expressed genes in the epithelial cells of PU and SU were significantly different
We found in swine endometrium during the proliferative phase that more IELs are distributed in the mucosal and glandular epithelium

Summary

Introduction

As an important reproductive organ, the uterus contributes to providing an appropriate site for embryonic implantation and development. Pregnancy failure and defective embryonic development are becoming more prevalent, often resulting from untoward changes in the uterine microenvironment [1, 2]. During follicular and luteal phases of the ovarian cycle, the uterine mucosa is programmed to undergo various physiological changes in order to facilitate the implantation of the embryonic blastocyst [3, 4], while the mucosal epithelial cells (MEC) are transformed from pseudostratified columnar to simple columnar. Immune responses in the uterus vary at different times of the reproductive cycle, the underlying mechanisms are not yet fully understood

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