Spermatogonial behavior in marmoset: a new generation, their kinetics and niche

STUDY QUESTION: Could a more detailed evaluation of marmoset spermatogonial morphology, kinetics and niches using high-resolution light microscopy (HRLM) lead to new findings? SUMMARY ANSWER: Three subtypes of marmoset undifferentiated spermatogonia, which were not evenly distributed in terms of number and position along the basal membrane, and an extra premeiotic cell division not present in humans were identified using HRLM. WHAT IS KNOWN ALREADY: The seminiferous epithelium cycle (SEC) of marmosets is divided into nine stages when based on the acrosome system, and several spermatogenic stages can usually be recognized within the same tubular cross-section. Three spermatogonial generations have been previously described in marmosets: types A(dark), A(pale) and B spermatogonia. STUDY DESIGN, SIZE, DURATION: Testes from five adult Callithrix penicillata were fixed by glutaraldehyde perfusion via the cardiac route and embedded in Araldite plastic resin for HRLM evaluation. Semi-thin sections (1 mu m) were analyzed morphologically and morphometrically to evaluate spermatogonial morphology and kinetics (number, mitosis and apoptosis), spermatogenesis efficiency and the spermatogonial niche. PARTICIPANTS/MATERIALS, SETTING, METHODS: Shape and nuclear diameter, the presence and distribution of heterochromatin, the granularity of the euchromatin, as well as the number, morphology and degree of nucleolar compaction were observed for morphological characterization. Kinetics analyses were performed for all spermatogonial subtypes and preleptotene spermatocytes, and their mitosis and apoptosis indexes determined across all SEC stages. Spermatogenesis parameters (mitotic, meiotic, Sertoli cell workload and general spermatogenesis efficiency) were determined through the counting of A(dark) and A(pale) spermatogonia, preleptotene and pachytene primary spermatocytes, round spermatids, and Sertoli cells at stage IV of the SEC. MAIN RESULTS AND THE ROLE OF CHANCE: This is the first time that a study in marmosets demonstrates: the existence of a new spermatogonial generation (B-2); the presence of two subtypes of A(dark) spermatogonia with (A(dVac)) and without (A(dNoVac)) nuclear rarefaction zones; the peculiar behavior of A(dVac) spermatogonia across the stages of the SEC, suggesting that they are quiescent stem spermatogonia; and that A(dVac) spermatogonia are located close to areas in which blood vessels, Leydig cells and macrophages are concentrated, suggesting a niche area for these cells. LARGE SCALE DATA: Not applicable. LIMITATIONS, REASONS FOR CAUTION: The C. penicillata spermatogonial kinetics evaluated here consider spermatogonial number across the SEC and their mitotic and apoptotic figures identified in HRLM sections. Therefore, caution is required when comparing absolute values between species. Although morphometric evaluation has suggested that A(dVac) spermatogonia are stem cells, a functional proof of this is still missing. It is known that parameters of the spermatogenic process in C. penicillata have similarities with those of the common marmoset C. jacchus, however, a detailed study of spermatogonial morphology, kinetics and niche has not yet been performed in C. jacchus, and a full comparison of the two species is not possible. WIDER IMPLICATIONS OF THE FINDINGS: Our findings in C. penicillata contribute to a better understanding of the spermatogonial behavior and spermatogenesis efficiency in non-human primates. Given the phylogenetic closeness of the marmoset to the human species, similar processes might occur in humans. Therefore, marmosets may be an excellent model for studies regarding human testicular biology, fertility and related disorders.