Androgen Signaling in Type 2 Innate Lymphoid Cells Drives Sex Differences in Helicobacter -Induced Gastric Inflammation and Atrophy
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Background & Aims
Gastric cancer is the fifth most common cancer worldwide. Men are disproportionately affected by gastric cancer, which ranks as the fourth most common cancer in men compared to eighth in women worldwide. Chronic inflammation driven by Helicobacter pylori infection remains the leading gastric cancer risk factor. Emerging evidence suggests that sex hormones modulate immune responses, contributing to sex differences in infection outcomes and cancer susceptibility. This study investigates how androgens influence the gastric inflammatory response to Helicobacter infection and contribute to sex disparities in disease progression.
Methods
Male and female C57BL/6 mice were colonized with Helicobacter felis to investigate sex differences in gastric inflammation. Androgen levels were manipulated by bilateral castration in males and dihydrotestosterone (DHT) treatment in females. Single-cell RNA sequencing was used to identify androgen-responsive leukocyte populations and to establish cell communication networks between leukocyte clusters. The functional roles of these cells were further defined using ILC2- and T cell-deficient mouse models.
Results
Infected female mice developed significantly more severe gastric inflammation, atrophy, and metaplasia infection compared to males. Androgen depletion by castration increased gastric inflammation and accelerated preneoplastic lesion development, while these pathological features were reduced by DHT treatment. Androgen-responsive type 2 innate lymphoid cells (ILC2s) were key initiators of gastric inflammation and ILC2 depletion abolished the sex differences in H. felis pathogenesis.
Conclusions
This study reveals that androgens suppress Helicobacter -induced gastric inflammation by modulating ILC2 activation. We found that androgens are protective, as androgen depletion exacerbated gastric inflammation and accelerated preneoplastic lesion development. These findings provide mechanistic insight into the age-related increase in male gastric cancer incidence, coinciding with declining androgen levels. Our results suggest that circulating androgen concentrations may serve as a prognostic biomarker for gastric cancer risk in men.
