Abstract
The physiological responses to estrogen hormones are mediated within specific tissues by at least two distinct receptors, ERα and ERβ. Several natural and synthetic molecules show activity by interacting with these proteins. In particular, a number of vegetal compounds known as phytoestrogens shows estrogenic or anti-estrogenic activity. The majority of these compounds belongs to the isoflavones family and the most representative one, genistein, shows anti-proliferative effects on various hormone-sensitive cancer cells, including breast, ovarian and prostate cancer. In this work we describe the identification of structurally related homoisoflavones isolated from Leopoldia comosa (L.) Parl. (L. comosa), a perennial bulbous plant, potentially useful as hormonal substitutes or complements in cancer treatments. Two of these compounds have been selected as potential ligands of estrogen receptors (ERs) and the interaction with both isoforms of estrogen receptors have been investigated through molecular docking on their crystallographic structures. The results provide evidence of the binding of these compounds to the target receptors and their interactions with key residues of the active sites of the two proteins, and thus they could represent suitable leads for the development of novel tools for the dissection of ER signaling and the development of new pharmacological treatments in hormone-sensitive cancers.
Highlights
The estrogen receptors (ERs), members of the nuclear receptor family, are ligand-inducible intracellular transcription factors and are involved in the regulation of several physiological processes, including cell growth, survival and differentiation [1,2,3]
This study describes the identification of two homoisoflavones isolated from L. comosa as ER
Several phenolic compounds based on a 3-benzylchroman-4-one skeleton and termed homoisoflavones have been isolated from various genres of the Hyacinthaceae plants family [27]
Summary
The estrogen receptors (ERs), members of the nuclear receptor family, are ligand-inducible intracellular transcription factors and are involved in the regulation of several physiological processes, including cell growth, survival and differentiation [1,2,3]. ERα is predominantly expressed in female reproductive organs, breast, kidney, bone, white adipose tissue and liver, whereas. ERβ has been found in several tissues of both male and female bodies including the central nervous system, colon, lung, kidney, male reproductive organs, and cardiovascular and immune systems. As members of the nuclear receptor protein family, ERs are located in the nucleus, even if they are present in the cytoplasm and mitochondria [4]. The activated ligand-ER homodimer complex binds to specific DNA sequences EREs (estrogen-response elements) and regulates transcription activity throughout interactions with specific transcription modulators
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