Multiple Lesions Contribute to Infertility in Males Lacking Autoimmune Regulator

Overview

Journal Am J Pathol

Publisher Elsevier

Specialty Pathology

Date 2021 Jun 14

PMID 34126085

Citations 5

Authors

Bryce D Warren

Soo H Ahn

Kathryn S Brittain

Manjunatha K Nanjappa

Hao Wang

Jianrong Wang

Gustavo Blanco

Gladis Sanchez

Yong Fan

Brian K Petroff

Paul S Cooke

Margaret G Petroff

Affiliations

Soon will be listed here.

Abstract

Male factors, including those of autoimmune origin, contribute to approximately 50% of infertility cases in humans. However, the mechanisms underlying autoimmune male infertility are poorly understood. Deficiency in autoimmune regulator (AIRE) impairs central immune tolerance because of diminished expression of self-antigens in the thymus. Humans with AIRE mutations and mice with engineered ablation of Aire develop multiorgan autoimmunity and infertility. To determine the immune targets contributing to infertility in male Aire-deficient () mice, Aire or wild-type (WT) males were paired with WT females. Aire males exhibited dramatically reduced mating frequency and fertility, hypogonadism, and reduced serum testosterone. Approximately 15% of mice exhibited lymphocytic infiltration into the testis, accompanied by atrophy, azoospermia, and reduced numbers of mitotically active germ cells; the remaining mice showed normal testicular morphology, sperm counts, and motility. However, spermatozoa from all Aire mice were defective in their ability to fertilize WT oocytes in vitro. Lymphocytic infiltration into the epididymis, seminal vesicle, and prostate gland was evident. Aire male mice generated autoreactive antibodies in an age-dependent manner against sperm, testis, epididymis, prostate gland, and seminal vesicle. Finally, expression of Aire was evident in the seminiferous epithelium in an age-dependent manner, as well as in the prostate gland. These findings suggest that Aire-dependent central tolerance plays a critical role in maintaining male fertility by stemming autoimmunity against multiple reproductive targets.

Citing Articles

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