Abstract
The pituitary gland is a vital endocrine organ regulating body homeostasis through six hormone-secreting cell types. Among these, pituitary gonadotrope cells are essential for reproductive function. Throughout pituitary ontogenesis, gonadotrope cells differentiate in a stepwise process, involving both morphogenic cues and transcription factors, which drives specification of progenitor cells into specialized endocrine cells. It is crucial to understand the mechanisms underlying gonadotrope differentiation, as developmental defects and abnormalities in this process can lead to many reproductive pathologies. This review offers a detailed overview of the latest advances in gonadotrope cell differentiation. We addressed this question with a specific focus on three important aspects of gonadotrope differentiation: the identification of the progenitor population giving rise to gonadotrope cells, the early mechanisms that initiate Nr5a1 expression and thus gonadotrope fate commitment and finally, the mechanisms driving the formation of physical and functional gonadotrope networks. Overall, this review aims to provide new insights into three aspects of the gonadotrope differentiation process by reconsidering pioneering studies in the light of data gained from latest technological developments. Firstly, we re-investigated the long debated developmental trajectory of pituitary gonadotrope cells. Secondly, we reported new regulatory mechanisms of Nr5a1 expression, focusing on the involvement of ERα. Finally, we highlighted the molecular and cellular mechanisms driving gonadotrope network formation during embryogenesis, a process that seems essential for regulation of gonadotrope activity.
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