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  • In some of our studies we examined the

    2020-10-09

    In some of our studies we examined the occurrence of ERβ and SHBG and a possible colocalization between them. Fig. 5 shows that there is no big difference in the occurence of ERβ after short time (A) as well as long time (B) treatment with E2. We can find the receptor at the cell membrane as well as in the cytoplasm of the cells. After longterm treatment we can find a little bit more ERβ in the nucleus than after short time treatment and in contrast there is more ERβ in the cytoplasm and at the membrane in short time treated cells. The expression of SHBG is low as indicated by the yellow/orange color. In E2 and tamoxifen treated GSK2606414 australia there are bigger differences in contrast to only E2 treated cells: ERβ is mainly located at the membrane but not in the cytoplasm anymore while a huge portion of SHBG is found in the cytoplasm of the cells. Further studies indicated that ERβ is also colocalized at the plasma membrane with SHBG in these cells. These results suggest that it is likely that membrane-located ERβ could be of importance in the uptake of E2 and the mediation of E2 effects in cells whose usual nuclear way of steroid action is blocked. The underlying mechanisms of the collaboration between ERβ and SHBG needs to be researched in more detail.
    Phytoestrogens: Natural ER Modulators ERs (ERα and ERβ) belong to the nuclear receptor superfamily of ligand-regulated transcription factors. They function as signal transducer and transcription factors to regulate the expression of target genes [1]. Their structural characteristics and regulatory mechanisms have been extensively investigated (Box 1). Various physiological functions and bioactivities (Box 2) of ERα and ERβ have also been reported. ERα is essential for the maturation and function of the reproductive system, bone development, cognitive system development, and metabolism [2]. While the ERβ isoform contributes less to these aspects than ERα contributes, it does play an important role in treatment of disease. Furthermore, ERβ can interact with ERα to exert novel physiological function. In clinical cancer studies, the absence of ERβ expression is associated with larger tumors, higher histological grade, and increased metastasis to the lymph nodes [3]. Due to the important functions of ERs in human development and health, searching for potent ERs modulators remains a hot area of investigation. Since many of the undesirable effects of estrogens are involved in the activation of ERα signaling, selective ERα/ERβ agonists or antagonists would be useful. Tissue-selective or non-nuclear selective ERα agonists could be good candidates for activating ERα in bone and adipose tissue, but not in tissues containing ER-related cancers. Phytoestrogens are natural ER modulators with structural and functional similarities to endogenously produced mammalian estrogens [4]. Flavonoids, stilbenoids, coumarins, and lignans are phytoestrogens with impressive affinity and selectivity for ERs. These phytoestrogens are usually safe and can be good candidates to target the ER signaling pathway in health and disease (Box 3).
    Derivatization to Alter ER Affinity Methylation and prenylation are two derivatization techniques to effectively improve the affinity of a phytoestrogen for ERs, while glycosylation usually reduces the affinity due to the steric hindrance [26]. Isoflavone Rx-phytoestrogen contains abundant glycosidic phytoestrogens, which make the extract show a lower estrogenic activity than those mainly containing aglcones [27]. Methylation of hydroxyl groups on phytoestrogens can directly remove the necessary hydrogen bond formed in the ligand-binding domain, changing the position in the binding pocket and determining the regulatory effect on GSK2606414 australia ER. Schizandrin is a lignan containing multiple methoxyl groups on its aromatic ring. When these groups are removed, the estrogenic activities of schizandrin are sharply decreased [20]. Diosmetin (3′-O-methylated luteolin) shows a preferential affinity (>3-fold) to ERβ than to ERα. It can increase the expression level of TNFα via the ERβ signaling pathway and can activate caspase 8 in acute myeloid leukemia cells, leading to apoptosis and tumor growth inhibition in vivo[28].