Abstract
Estrogens have long been known as important regulators of the female reproductive functions; however, our understanding of the role estrogens play in the human body has changed significantly over the past years. It is now commonly accepted that estrogens and androgens have important functions in both female and male physiology and pathology. This is in part due to the local synthesis and action of estrogens that broadens the role of estrogen signaling beyond that of the endocrine system. Furthermore, there are several different mechanisms through which the three estrogen receptors (ERs), ERα, ERβ and G protein-coupled estrogen receptor 1 (GPER1) are able to regulate target gene transcription. ERα and ERβ are mostly associated with the direct and indirect genomic signaling pathways that result in target gene expression. Membrane-bound GPER1 is on the other hand responsible for the rapid non-genomic actions of estrogens that activate various protein-kinase cascades. Estrogen signaling is also tightly connected with another important regulatory entity, i.e. epigenetic mechanisms. Posttranslational histone modifications, microRNAs (miRNAs) and DNA methylation have been shown to influence gene expression of ERs as well as being regulated by estrogen signaling. Moreover, several coregulators of estrogen signaling also exhibit chromatin-modifying activities further underlining the importance of epigenetic mechanisms in estrogen signaling. This review wishes to highlight the newer aspects of estrogen signaling that exceed its classical endocrine regulatory role, especially emphasizing its tight intertwinement with epigenetic mechanisms.
Highlights
Estrogens are perceived manly as ovarian sex hormones responsible for cellular proliferation and growth of tissues related to reproduction
Estrogen signaling is tightly intertwined with epigenetic mechanisms which have been an important focus of research in recent years
Extragonadal synthesis of estrogens and their tight connection with androgens have extended the mechanism of estrogen action from endocrine to paracrine, autocrine and even intracrine signaling
Summary
Estrogens are perceived manly as ovarian sex hormones responsible for cellular proliferation and growth of tissues related to reproduction. Postmenopausal women, due to the decline in their ovary function, and men are largely dependent on local synthesis of estrogens in extragonadal target tissues. This local production of estrogens extends their signaling from endocrine to paracrine, autocrine and intracrine [3]. It is always important to consider both regulatory pathways and their tight intertwinement in either women or men [3,7,11] This fact only further accentuates the central role of extragonadal production of steroid hormones, for a long time an overlooked aspect of estrogen signaling.
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