Sex differences in IL-17 contribute to chronicity in male versus female urinary tract infection
Anna Zychlinsky Scharff, … , Darragh Duffy, Molly A. Ingersoll
Anna Zychlinsky Scharff, … , Darragh Duffy, Molly A. Ingersoll
Published May 30, 2019
Citation Information: JCI Insight. 2019;4(13):e122998. https://doi.org/10.1172/jci.insight.122998.
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Research Article Immunology Infectious disease

Sex differences in IL-17 contribute to chronicity in male versus female urinary tract infection

Abstract

Sex-based differences influence incidence and outcome of infectious disease. Women have a significantly greater incidence of urinary tract infection (UTI) than men, yet, conversely, male UTI is more persistent, with greater associated morbidity. Mechanisms underlying these sex-based differences are unknown, in part due to a lack of experimental models. We optimized a model to transurethrally infect male mice and directly compared UTI in both sexes. Although both sexes were initially equally colonized by uropathogenic E. coli, only male and testosterone-treated female mice remained chronically infected for up to 4 weeks. Female mice had more robust innate responses, including higher IL-17 expression, and increased γδ T cells and group 3 innate lymphoid cells in the bladder following infection. Accordingly, neutralizing IL-17 abolished resolution in female mice, identifying a cytokine pathway necessary for bacterial clearance. Our findings support the concept that sex-based responses to UTI contribute to impaired innate immunity in males and provide a rationale for non–antibiotic-based immune targeting to improve the response to UTI.

Authors

Anna Zychlinsky Scharff, Matthieu Rousseau, Livia Lacerda Mariano, Tracy Canton, Camila Rosat Consiglio, Matthew L. Albert, Magnus Fontes, Darragh Duffy, Molly A. Ingersoll

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Figure 6

Female mice display characteristics of a type II immune response that is not suppressed by testosterone.

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Female mice display characteristics of a type II immune response that is...
(AC) Female and male mice were infected with 1 × 107 CFU of UPEC UTI89-RFP-kanR and bladders analyzed at 24 hours PI. Graphs show (A) IL-33 protein levels in homogenized bladder, (B) IL-4Rα expression on bladder resident macrophages (Mϕ), and (C) the number of ILCs (CD90+CD3CD4NK1.1MHC IICD11b) in bladders. (DF) Female mice were implanted with empty tubing (Mock) or slow-release tubing containing testosterone (T tube) and allowed to recover 1 week before infection with 1 × 107 CFU UPEC strain UTI89-RFP-kanR. Graphs show (D) IL-33 protein levels in homogenized bladder tissue, (E) IL-4Rα expression on bladder resident macrophages, and (F) the number of ILCs in bladders. Data are pooled from 2–3 experiments, n = 4–5 mice/group in each experiment. Each dot is 1 mouse, red dots depict female mice and blue dots are male mice, and lines are medians. ns = not significant, *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 by Mann-Whitney test. Analyses in this figure were corrected for multiple testing by the Holm–Bonferroni method; all P < 0.05 had q < 0.05.