Estrogen Receptors as Targets for Drug Development for Breast Cancer, Osteoporosis and Cardiovascular Diseases
Michael A. Gallo,
T. J. Thomas.
Estrogen receptors (ERs) are proteins that mediate the action of estradiol and a series of natural and synthetic chemicals that mimic the estradiol structure. Estrogenic action was initially attributed to a single type of ER, now known as ERα, but ERβ was discovered in 1995. Tissue specific distribution and the intensity of expression of these proteins determine the first response of tissues to estrogenic compounds. Estrogens and ERs play a major role in the origin and progression of breast cancer, and antiestrogens that block ER function are useful for breast cancer prevention and treatment. Estrogen mimetics, however, do not fall into distinct categories of agonists and antagonists, since their action is regulated by tissue-specific expression of a number of auxiliary proteins called coactivators or corepressors. In addition, small molecules such as polyamines, fattyacids, and thioredoxin may modulate ER function. Estrogenic functions encompass multiple organ systems, including the reproductive, skeletal, cardiovascular, and nervous system. Estrogens are critical for bone remodeling and mineralization so that estrogen replacement therapy is proven to strengthen bone health in post-menopausal women. Ideally, selective blockade of ER function in breast epithelial cells should be accompanied by growth support on bone and cardiovascular systems. The details of estrogenic function in different organs are to be fully realized, in order to better utilize selective estrogen receptor modulators (SERMs) to fight not only breast cancer but also osteoporosis and cardiovascular diseases. Current research on SERMs points toward accomplishing this goal by exploiting ER as a versatile target against multiple diseases.
Keywords: estrogens, estrogen receptor, selective estrogen receptor modulator, breast cancer, osteoporosis, cardiovascular diseases, hormone replacement therapy
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