Stimulatory and inhibitory regulation of DNA synthesis during spermatogenesis: studies in Squalus acanthias

Abstract

Spermatogenesis is a unique developmental sequence involving multiple cell to cell interactions and several categories of regulatory molecules. In contrast to conventional mammalian models in which testicular organization is highly complex, the testis of the dogfish shark Squalus acanthias is technically advantageous for elucidating stage-dependent structural and functional charactericsics and for in vitro regulatory studies. Using incorporation of [(3)H]thymidine into acid-insoluble molecules as a measure of DNA synthesis by spermatocysts (germ cell/Sertoli cell units) of premeiotic stages, we obtained evidence of a growth inhibitory bioactivity (chalone) within the testis. This activity is differentially distributed (postmeiotic > meiotic > premeiotic), suggesting that more advanced developmental stages, which are upstream in the vascular pathway within the testis, may control the size of the proliferating spermatocyst population and, hence, the advance of less mature stages. These data provide direct evidence for humoral communication between stages of spermatogenesis.