The Inflammatory Feed-Forward Loop Triggered by the Complement Component C3 as a Potential Target in Endometriosis.

Chiara Agostinis,Anna Martorana,Federico Romano,Andrea Balduit,Paolo Macor,Roberta Bulla,Violetta Borelli,Beatrice Belmonte,Gabriella Zito,Uday Kishore,Alessandro Mangogna,Miriam Toffoli,Giuseppe Ricci,Gaia Morello,Sonia Zorzet

doi:10.3389/fimmu.2021.693118

Abstract

The complement system is a major component of humoral innate immunity, acting as a first line of defense against microbes via opsonization and lysis of pathogens. However, novel roles of the complement system in inflammatory and immunological processes, including in cancer, are emerging. Endometriosis (EM), a benign disease characterized by ectopic endometrial implants, shows certain unique features of cancer, such as the capacity to invade surrounding tissues, and in severe cases, metastatic properties. A defective immune surveillance against autologous tissue deposited in the peritoneal cavity allows immune escape for endometriotic lesions. There is evidence that the glandular epithelial cells found in endometriotic implants produce and secrete the complement component C3. Here, we show, using immunofluorescence and RT-qPCR, the presence of locally synthesized C3 in the ectopic endometriotic tissue, but not in the eutopic tissue. We generated a murine model of EM via injection of minced uterine tissue from a donor mouse into the peritoneum of recipient mice. The wild type mice showed greater amount of cyst formation in the peritoneum compared to C3 knock-out mice. Peritoneal washings from the wild type mice with EM showed more degranulated mast cells compared to C3 knock-out mice, consistent with higher C3a levels in the peritoneal fluid of EM patients. We provide evidence that C3a participates in an auto-amplifying loop leading to mast cell infiltration and activation, which is pathogenic in EM. Thus, C3 can be considered a marker of EM and its local synthesis can promote the engraftment of the endometriotic cysts.

Highlights

Endometriosis (EM) is a chronic gynecological disorder, frequently associated with infertility, that affects about 5-10% of women in reproductive age [1, 2]
We provide evidence that C3a participates in an auto-amplifying loop leading to mast cell infiltration and activation, which is pathogenic in EM
In order to confirm the local synthesis of C3, total RNA was isolated from ovarian EM cysts and eutopic endometrium

Summary

Introduction

Endometriosis (EM) is a chronic gynecological disorder, frequently associated with infertility, that affects about 5-10% of women in reproductive age [1, 2]. EM is characterized by severe pain, dysmenorrhea, dyspareunia and dysuria, as a consequence of the presence of functional endometrial tissue outside the uterine cavity [3]. The most common locations for the ectopic implants are the ovaries, peritoneum, and the uterosacral ligaments. The presence of ectopic tissues in these areas induces a condition of chronic inflammation. Current evidence suggests that immune dysfunction is the most likely causative factor for the EM pathogenesis [4,5,6]. The pathways involved in immune cell recruitment, cell adhesion, and inflammatory processes encourage the implantation and survival of endometriotic lesions

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