Felis catus ovary as a model to study follicle biology in vitro.

PURPOSE: The current study was designed to evaluate the response of individual intact antral follicles from adult female domestic cats to a luteinizing hormone (LH) stimulus in vitro by assessing cumulus-oocyte expansion (C-OE) and steroid production. METHODS: C-OE and steroid levels (estradiol [E2] and progesterone [P4]) obtained from individual antral feline follicles (n = 366 follicles; n = 56 cats) were analyzed after 12 or 24 h of culture in the presence or absence of LH (low [3.4 ng/ml] or high [100 ng/ml]). RESULTS: At the end of the culture, the highest percentage of expanded cumulus-oocyte complexes (COCs) was observed in the LH groups at 12 or 24 h in comparison to their controls (p < 0.001). There was a significant increase in expanded COCs when comparing LH concentrations (high vs. low) at 12 or 24 h. Higher levels of both E2 and P4 were observed in the media from antral follicles after 12 and 24 h of culture in the presence of LH (both concentration, p < 0.05). There was no association between hormone levels and follicle diameter; high variability was observed in the steroid levels produced by antral follicles within all treatment groups. CONCLUSIONS: These data indicate, for the first time, that feline antral follicles (0.5-2 mm) from different stages of the natural estrous cycle can be cultured and will respond to an LH stimulus, based on an increase in steroid levels as well as C-OE after 12 or 24 h in culture.

Physiological androgen insensitivity of the fetal, neonatal, and early infantile testis is explained by the ontogeny of the androgen receptor expression in Sertoli cells.

CONTEXT: Although gonadotropins and testosterone are high in the fetal/early postnatal periods, Sertoli cells remain immature and spermatogenesis does not progress. We hypothesized that Sertoli cells do not respond to testosterone because they do not express the androgen receptor. OBJECTIVE: The objective of the study was to describe the precise ontogeny of androgen receptor expression in the human testis from fetal life through adulthood. DESIGN: This was an immunohistochemical study on testicular biopsies from fetal, neonatal, prepubertal, pubertal, and adult human testes. MAIN OUTCOME MEASURES: Quantification of androgen receptor expression in Sertoli cells was measured. Evaluation of androgen receptor expression in peritubular and interstitial cells as well as anti-Müllerian hormone and inhibin-alpha was also performed. RESULTS: Androgen receptor expression was first observed in the nuclei of few Sertoli cells at the age of 5 months. Labeling was weak in 2-15% of Sertoli cells until 4 yr of age and progressively increased thereafter. High levels of androgen receptor expression were observed in more than 90% from the age of 8 yr through adulthood. Androgen receptor was positive in peritubular cells and variable in interstitial cells. Anti-Müllerian hormone immunolabeling was strong in all Sertoli cells from fetal life throughout prepuberty and weakened progressively as spermatogenesis developed. Inhibin-alpha expression was detected in all Sertoli cells from fetal life through adulthood. CONCLUSIONS: A lack of androgen receptor expression could explain a physiological Sertoli cell androgen insensitivity during fetal and early postnatal life, which may serve to protect the testis from precocious Sertoli cell maturation, resulting in proliferation arrest and spermatogenic development.

Ontogeny of the androgen receptor expression in the fetal and postnatal testis: its relevance on Sertoli cell maturation and the onset of adult spermatogenesis.

From fetal life to adulthood, the testis evolves through maturational phases showing specific morphologic and functional features in its different compartments. The seminiferous cords contain Sertoli and germ cells, surrounded by peritubular cells, and the interstitial tissue contains Leydig cells and connective tissue. Sertoli cells secrete anti-Müllerian hormone (AMH), whereas Leydig cells secrete androgens. In the fetal and early postnatal testis, Leydig cells actively secrete androgens. Sertoli cells are morphologically and functionally immature--e.g., they secrete high levels of AMH--and germ cells proliferate by mitosis but do not enter meiosis. During infancy and childhood, Leydig cells regress and testosterone secretion declines dramatically. Sertoli cells remain immature and spermatogenesis is arrested at the premeiotic stage. At puberty, Leydig cells differentiate again, and testosterone concentration increases and provokes Sertoli cell maturation--e.g., down-regulation of AMH expression--and germ cells undergo meiosis, the hallmark of adult spermatogenesis driving to sperm production. An intriguing feature of testicular development is that, although testosterone production is as active in the fetal and early postnatal periods as in puberty, Sertoli cells and spermatogenesis remain immature until pubertal onset. Here, we review the ontogeny of the androgen receptor expression in the testis and its impact on Sertoli cell maturation and the onset of pubertal spermatogenesis. We show that the absence of androgen receptor expression in Sertoli cells underlies a physiological stage of androgen insensitivity within the male gonad in the fetal and early postnatal periods.