Litcius/Paper detail

The role of pituitary gonadotropins and intraovarian regulators in follicle development: A mini‐review

Makoto Orisaka, Yumiko Miyazaki, Aya Shirafuji, Chiyo Tamamura, Hideaki Tsuyoshi, Benjamin K. Tsang, Yoshio Yoshida

2021Reproductive Medicine and Biology112 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The process of follicle development is tightly regulated by pituitary gonadotropins (follicle-stimulating hormone [FSH] and luteinizing hormone [LH]) and intraovarian regulators (eg, steroids, growth factors, and cytokines). METHODS: This review outlines recent findings on the mechanisms of human follicle development, based on the research on animal models such as mice, rats, cows, and sheep. MAIN FINDINGS: Phosphatidylinositol 3-kinase/protein kinase B signaling pathway and anti-Müllerian hormone are involved in primordial follicle activation during the gonadotropin-independent phase. The intraovarian regulators, such as androgen, insulin-like growth factor system, activin, oocyte-derived factors (growth differentiation factor-9 and bone morphogenetic protein 15), and gap junction membrane channel protein (connexin), play a central role in the acquisition of FSH dependence in preantral follicles during the gonadotropin-responsive phase. Antral follicle development can be divided into FSH-dependent growth and LH-dependent maturation. The indispensable tetralogy for follicle selection and final maturation of antral follicles involves (a) acquisition of LH dependence, (b) greater capacity for E2 production, (c) activation of the IGF system, and (d) an antiapoptotic follicular microenvironment. CONCLUSION: We reproductive endocrinologists should accumulate further knowledge from animal model studies to develop methods that promote early folliculogenesis and connect to subsequent gonadotropin therapy in infertile women.

Topics & Concepts

FolliculogenesisAntral follicleInternal medicineEndocrinologyGonadotropinFollicle-stimulating hormoneLuteinizing hormoneBiologyOvarian follicleFollicular phaseCell biologyHormoneMedicineEmbryogenesisEmbryoReproductive Biology and FertilityHypothalamic control of reproductive hormonesOvarian function and disorders