Follicular growth in the rat: a reevaluation of the roles of FSH and LH

Regulation of antral follicular growth by an interplay between gonadotropins and their receptors

Knowledge of the growth and maturation of human antral follicles is based mainly on concepts and deductions from clinical observations and animal models. To date, new experimental approaches and in vitro data contributed to a deep comprehension of gonadotropin receptors' functioning and may provide new insights into the mechanisms regulating still unclear physiological events. Among these, the production of androgen in the absence of proper LH levels, the programming of follicular atresia and dominance are some of the most intriguing. Starting from evolutionary issues at the basis of the gonadotropin receptor signal specificity, we draw a new hypothesis explaining the molecular mechanisms of the antral follicular growth, based on the modulation of endocrine signals by receptor-receptor interactions. The "heteromer hypothesis" explains how opposite death and life signals are delivered by gonadotropin receptors and other membrane partners, mediating steroidogenesis, apoptotic events, and the maturation of the dominant follicle.

The Interplay between Estrogen and Fetal Adrenal Cortex

Estrogen is a steroid hormone that regulates embryogenesis, cell proliferation and differentiation, organogenesis, the timing of parturition, and fetal imprinting by carrying chemical messages from glands to cells within tissues or organs in the body. During development, placenta is the primary source of estrogen production but estrogen can only be produced if the fetus or the mother supplies dehydroepiandrosterone (DHEA), the estrogen prohormone. Studies show that the fetal zone of the fetal adrenal cortex supplies 60% of DHEA for placental estrogen production, and that placental estrogen in turn modulates the morphological and functional development of the fetal adrenal cortex. As such, in developed countries where humans are exposed daily to environmental estrogens, there is concern that the development of fetal adrenal cortex, and in turn, placental estrogen production may be disrupted. This paper discusses fetal adrenal gland development, how endogenous estrogen regulates the structure and function of the fetal adrenal cortex, and highlights the potential role that early life exposure to environmental estrogens may have on the development and endocrinology of the fetal adrenal cortex.

Thrombospondin and vascular endothelial growth factor are cyclically expressed in an inverse pattern during bovine ovarian follicle development

Angiogenesis does not normally occur in most adult tissues. However, in the ovary, there are cyclical vascular changes including angiogenesis that involve the interaction of numerous cytokines and growth factors. Angiogenic processes are regulated by a balance between pro- and antiangiogenic factors. The purpose of this study was to determine the expression of the antiangiogenic thrombospondin family and proangiogenic vascular endothelial growth factor (VEGF) in various sizes of healthy bovine follicles. Ovaries were collected from slaughterhouse animals and healthy follicles were sorted based on size (< 0.5 cm, small; 0.5-1.0 cm, medium; >1.0 cm, large). Thrombospondin (TSP) protein levels were significantly higher in small follicles. Immunohistochemistry confirmed the granulosa layer as the primary area within the follicle involved in TSP generation and that small follicles had the highest proportion of immunopositive cells. TSP-1 and -2 mRNA levels were significantly higher in small follicles than either medium or large follicles. TSP colocalized with CD36 on granulosa cells (GC) in the follicle and in cultured cells. In contrast with TSP, VEGF expression increased during growth and development of the follicle. FSH stimulated GC expression of TSP, while LH had no effect. In summary, TSP-1 and -2 were coordinately expressed in the extravascular compartment of the ovary during early follicle development. VEGF was inversely expressed, with expression increasing as follicles developed. Regulated expression and localization of these proteins suggests that they may be involved in regulating growth and development of the follicle in a novel fashion.

Cell Proliferation in the Atretic Follicles of Buffalo and Cattle Ovary

The present study was carried out to describe the proliferative activity of granulosa and theca cells in healthy antral and atretic follicles of Philippine buffaloes (BU) and Holstein-Friesian (HF) cows. Paraffin sections of ovary were immunostained with mouse monoclonal antibody to proliferating cell nuclear antigen (PCNA). Then the follicles were classified into healthy and various stages of atretic follicles. The granulosa layer of healthy follicles had a significantly higher frequency of PCNA-positive cells than the early and advanced atretic follicles in both breeds. In the theca interna, significantly reduced populations of the PCNA-positive cells were found in both breeds as atresia progressed. Moreover, HF had significantly higher PCNA-positive cells in the theca interna of healthy, early atretic and advanced atretic follicles than BU. A reduction of PCNA-positive cells during atresia was also noted in the theca externa in both animals although differences were not significant. The results of the present work suggest that the proliferative activity of granulosa and theca cells decreases in association with follicular atresia in the BU similar to HF. Furthermore, a significantly deficient cell proliferative activity of theca interna was found in BU compared with HF.

Immunocytochemical study of cell proliferation in the cystic ovarian follicles in cows

We examined the frequency of proliferating cells in cystic, atretic and healthy antral follicles to determine whether a disorder of cell proliferation was responsible for the occurrence of bovine cystic follicles. Paraffin sections of healthy follicles and various stages of atretic and cystic follicles were immunostained with mouse monoclonal antibody to proliferating cell nuclear antigen (PCNA). The PCNA-positive cells were counted in 4 different regions of a follicle from the apical to the basal side. In the granulosa layer, a significantly higher frequency of PCNA-positive cells was observed in the healthy follicle in the basal region as compared with the apical region. A similar pattern of PCNA-positive cells population was observed in the granulosa layer of atretic follicles, although the frequency in the basal region was significantly lower in the atretic than the healthy follicle. The rate of cell proliferation in the granulosa layer of cystic follicles was markedly lower at the basal region than that of atretic follicles. In the theca interna, the frequency of PCNA-positive cells in atretic follicles at the early stages was higher than that in cystic follicles at the early stages. These results suggest that in the healthy follicle the proliferative activity of granulosa cells is higher in the basal than the apical region, and that the cell proliferation activity in the granulosa and theca interna may decrease in association with the induction of a follicular cyst.

Functional pathology of human ovarian steroidogenesis: Normal cycling ovary and steroid-producing neoplasms

In human reproductive endocrinology and pathology, it is important to localize the sites of steroid hormone production to obtain a better understanding of steroid metabolism. Previous approaches, including morphological and biological studies, could not sufficiently demonstrate which cells produce what steroids in both normal and pathological human ovaries. Recent development of immunohistochemistry and in situ hybridization of the enzymes specifically involved in sex steroid biosynthesis made it possible to detect the expression of steroidogenic enzymes, and subsequently the sites of specific steroid production in diagnostic pathology materials. There are, however, some limitations in the approaches, including correlation of the findings with preoperative systemic hormonal manifestations in the patients with sex cord-stromal tumors of the ovary, and great care should be taken when interpreting results.

Immunohistochemical localization of oestrogen receptors and progesterone receptors in the human ovary throughout the menstrual cycle

Immunohistochemistry was used to determine the distribution of oestrogen receptors (ER) and progesterone receptors (PR) in the human ovary during folliculogenesis. Primordial and preantral follicles did not contain ER or PR. The granulosa cells of antral follicles had ER, but negligible PR, before the LH surge. In contrast, at the time of LH surge, these cells of the dominant follicle contained PR, but not ER. On the other hand, granulosa cells of the non-dominant follicles had ER, but not PR. After ovulation, the PR persisted in the luteinized granulosa cells and in the corpus luteum during early pregnancy. The theca interna and surrounding stromal cells were ER-negative and PR-positive throughout the menstrual cycle. Thus, the results show that ER and PR are not expressed simultaneously in the granulosa cells, the thecal cells, or the stromal cells during folliculogenesis. Mechanisms controlling the expression of steroid receptors during the normal menstrual cycle and in early pregnancy are discussed.

Structure of the lutropin/choriogonadotropin receptor

In summary, the LH/CG receptor is a single polypeptide which contains a large hydrophilic domain that is situated extracellularly, attached to a region that spans the plasma membrane seven times, the carboxy-terminal region being intracellular. This topology was predicted by the amino acid sequence and has been confirmed by our immunofluorescence studies. The extracellular domain, which is related to a family of leucine-rich glycoproteins, is presumably involved in binding the large glycoprotein hormones hCG and LH. The carboxy-terminal half of the receptor, which is related to the family of rhodopsinlike receptors, is (by analogy with these receptors) presumably involved in the coupling of the receptor to the G protein. Our transfection studies confirm that this single polypeptide is capable of binding hormone and activating adenylyl cyclase. Therefore, not only is the structure of the LH/CG receptor unique compared to other cell surface receptors characterized to date, but also its structure suggests that the mechanism of the translation of hormone binding to G protein coupling in this receptor is different from other G protein-coupled receptors whose ligands are much smaller and intercalcate among the transmembrane helices. We predict that, due to the homology among the glycoprotein hormones, the structures of the FSH and TSH receptors share extensive amino acid and structural homology with the LH/CG receptor. Last, our newly acquired knowledge about the structure of the LH/CG receptor, and the development of a cDNA and antibodies for this receptor, should enable more detailed studies on the function and regulation of the LH/CG receptor, not previously possible.

Isolated follicle-stimulating hormone deficiency in a woman with X chromosomal mosaicism

Primary amenorrhea was observed in a 40-year-old woman with a proportionate female habitus. Serum levels of luteinizing hormone (LH) (71 to 97 mIU/ml) and estradiol (less than 10 pg/ml) were in the postmenopausal range, while follicle-stimulating hormone (FSH) remained at the lower limit of detection (1 to 6 mIU/ml). LH was found to be biologically active in a mouse Leydig cell testosterone production assay. Chromosomal analysis revealed three major cell lines: 5% 45,X; 83% 46,XX; and 3% 47,XXX. The remaining cells showed apparently random aneuploidy and chromosome rearrangements. Intravenous administration of 150 micrograms of gonadotropin-releasing hormone produced a threefold elevation in LH but did not alter FSH levels. Review of ovarian biopsies performed at age 22 revealed a multitude of primordial follicles and one follicle with antrum formation. There was no evidence of recent or past ovulation. An insulin tolerance test evoked normal responses in serum growth hormone, prolactin, and cortisol. This is the first reported case of an isolated deficiency of FSH associated with mosaicism of the X chromosome. This coexistence of functional and genetic aberrations suggests that the differential secretion of LH and FSH may be related to specific independent loci on the X chromosome.

Regulation of ovulation number in mammals. A follicle interaction law that controls maturation

The assumption that developing follicles communicate through circulating hormones has been used to obtain a class of interaction laws that describe follicle growth. A specific member of this class has been shown to control ovulation number. Although all interacting follicles obey the same growth law and are given initial maturities that are chosen at random from a uniform distribution, ovulatory and atretic follicles emerge. Changing the parameters in the growth law can alter the most probable ovulation number values, anovulatory states are also admitted as possible solutions of the growth law. The behavior of the model is examined for interacting follicle populations of different size. Methods are suggested for identifying growth laws in particular mammals. These can be used to test the model from experimental data.