Endocrinology, Vol 114, 922-929, Copyright © 1984 by Endocrine Society

ARTICLES

The dark mink: a model of male infertility

KS Tung, LE Ellis, GV Childs and M Dufau

Breeding mink for a fine dark fur has coselected male infertility, which may be manifest at the onset of breeding (primary infertility) or after one or more fertile breeding seasons (secondary infertility). Mink with primary infertility have low LH and testosterone levels. However, they respond to exogenous GnRH with increases in LH production and in the number and size of LH and FSH positive gonadotropes in the anterior pituitary. Exogenous human CG also induces testosterone secretion. Thus, mink with primary infertility are probably defective in GnRH secretion, which is due either to abnormal hypothalamic function or its control mechanisms. Autoimmune orchitis with testicular immune complexes are frequent in mink with secondary infertility, suggesting an autoimmune etiology. In contrast, fertile dark mink and fertile mink with the opaline and pastel fur have normal serum LH and testosterone levels; their testes are also normal. In mink with secondary infertility, the frequency and degree of orchitis and testicular immune complexes increased from March (peak sexual activity) to April (onset of testicular regression). Thus, testicular autoimmunity most likely develops during testicular regression. Antisperm antibodies also increased in frequency during testicular regression in the fertile dark mink and in dark mink with primary and secondary infertility. Thus, antisperm antibody per se is insufficient to induce autoimmune orchitis. It is concluded that the infertile mink is a useful model of human male infertility, involving both endocrinological and immunological mechanisms.