Effects of inducible nitric oxide synthase (iNOS) deficiency in mice on Sertoli cell proliferation and perinatal testis development

Abstract

Nitric oxide (NO) plays crucial roles in several physiological and pathological conditions. The iNOS isoform produces high levels of NO independent of intracellular calcium and, in the testis, which is expressed in Sertoli (SC), Leydig (LC) and germ cells. The testicular roles of NO are unclear, but it can inhibit LC testosterone production. Our aim was to evaluate the effects of iNOS deficiency on testis development in mice from late fetal life through early puberty. Therefore, testes from wild type (C57BCL/6) and iNOS(-/-) mice (B6.129P2- Nos2(tm1Lau) /J) were sampled at various ages between e18.5 and Pnd20 and evaluated by histological and stereological analyses; proliferating cells were labelled with (3)H-thymidine. At all ages, testis weight and anogenital index, a measure of fetal androgen exposure, were greater in iNOS-deficient mice than in wild type mice. At all ages after birth, iNOS-deficient mice exhibited increased (p < 0.05) SC number per testis, and this was accounted for by a higher SC proliferation index (p < 0.05) in iNOS-deficient mice, especially on Pnd1 and Pnd5. Similarly, LC number per testis was higher (p < 0.05) in iNOS(-/-) mice than in wild type at all post-natal ages. Highly positive and significant correlations were observed between the proliferation index for SC, LC and peritubular myoid cells on e18.5 and post-natally. Although lumen formation was slightly advanced in iNOS(-/-) mice, no obvious other effects on pubertal testis development were observed. These results imply that NO may normally constrain testis somatic cell development, especially SC, perhaps by limiting testosterone production. Removal of this constraint results in normal, but larger, testes with greater sperm production. Our data pinpoint the window of iNOS (NO) action on SC proliferation and raise the possibility that experimental manipulation of NO in early post-natal life could be used to enhance SC proliferation if this was deficient for any reason.