Progesterone promotes CXCl2-dependent vaginal neutrophil killing by activating cervical resident macrophage–neutrophil crosstalk
Carla Gómez-Oro, Maria C. Latorre, Patricia Arribas-Poza, Alexandra Ibáñez-Escribano, Katia R. Baca-Cornejo, Jorge Gallego-Valle, Natalia López-Escobar, Mabel Mondéjar-Palencia, Marjorie Pion, Luis A. López-Fernández, Enrique Mercader, Federico Pérez-Milán, Miguel Relloso
Carla Gómez-Oro, Maria C. Latorre, Patricia Arribas-Poza, Alexandra Ibáñez-Escribano, Katia R. Baca-Cornejo, Jorge Gallego-Valle, Natalia López-Escobar, Mabel Mondéjar-Palencia, Marjorie Pion, Luis A. López-Fernández, Enrique Mercader, Federico Pérez-Milán, Miguel Relloso
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Research Article Endocrinology Infectious disease

Progesterone promotes CXCl2-dependent vaginal neutrophil killing by activating cervical resident macrophage–neutrophil crosstalk

Abstract

Vaginal infections in women of reproductive age represent a clinical dilemma with significant socioeconomic implications. The current understanding of mucosal immunity failure during early pathogenic invasions that allows the pathogen to grow and thrive is far from complete. Neutrophils infiltrate most tissues following circadian patterns as part of normal repair, regulation of microbiota, or immune surveillance and become more numerous after infection. Neutrophils are responsible for maintaining vaginal immunity. Specific to the vagina, neutrophils continuously infiltrate at high levels, although during ovulation, they retreat to avoid sperm damage and permit reproduction. Here we show that, after ovulation, progesterone promotes resident vaginal macrophage–neutrophil crosstalk by upregulating Yolk sac early fetal organs (FOLR2+) macrophage CXCl2 expression, in a TNFA-patrolling monocyte-derived macrophage–mediated (CX3CR1hiMHCIIhi-mediated) manner, to activate the neutrophils’ capacity to eliminate sex-transmitted and opportunistic microorganisms. Indeed, progesterone plays an essential role in conciliating the balance between the commensal microbiota, sperm, and the threat of pathogens because progesterone not only promotes a flurry of neutrophils but also increases neutrophilic fury to restore immunity after ovulation to thwart pathogenic invasion after intercourse. Therefore, modest progesterone dysregulations could lead to a suboptimal neutrophilic response, resulting in insufficient mucosal defense and recurrent unresolved infections.

Authors

Carla Gómez-Oro, Maria C. Latorre, Patricia Arribas-Poza, Alexandra Ibáñez-Escribano, Katia R. Baca-Cornejo, Jorge Gallego-Valle, Natalia López-Escobar, Mabel Mondéjar-Palencia, Marjorie Pion, Luis A. López-Fernández, Enrique Mercader, Federico Pérez-Milán, Miguel Relloso

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Figure 2

Macrophage subset density and neutrophil killing in the monocytes/MdM-pat depletion model.

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Macrophage subset density and neutrophil killing in the monocytes/MdM-pa...
(A and B) Stacked bar chart representation of macrophage subset density (data from Supplemental Figures 2, C and D) in the vaginal tissue by flow cytometry (A) and cervix by confocal microscopy (B). (C) Ovariectomized mice were administered clodronate liposomes along with estradiol, either in combination with additional estradiol or progesterone, to simulate the ovarian cycle. Subsequently, mice were subjected to a vaginal challenge with C. albicans. The E2/P4- and E2/E2-treated mice were analyzed at 12 and 24 hours after challenge, respectively. Mann-Whitney U test (n = 5–9 mice per group). (D) Mice treated with clodronate liposomes, single hormone and challenged in the vagina with C. albicans. Mice treated with P4 and E2 were assessed at 12 and 24 hours after the challenge, respectively. Number of neutrophils analyzed by flow cytometry and live C. albicans (CFU) in the vaginal lavage. Confocal data were calculated in 2–4 different sections of each sample. Mann-Whitney U test (n = 7–14 mice per group). Data were calculated from at least 3 experiments and expressed as box and whiskers, at 10–90 percentiles. *P < 0.05 and **P < 0.01. YsM, Yolk sac–derived macrophages (F4/80-FOLR2); MdM-inf, inflammatory monocyte–derived macrophages (F4/80-CCR2); MdM-pat, patrolling monocyte–derived macrophages (F4/80-MHCII/CX3CR1); PMNs, polymorphonuclear leukocytes; CFU, colony-forming unit; Clod, clodronate; E2, estradiol; P4, progesterone; Est, estrous; and Metest, metestrus.