Selective estrogen receptor modulator
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Overview
Selective estrogen receptor modulators (SERMs) are a class of medication that acts on the estrogen receptor.[1] A characteristic that distinguishes these substances from pure receptor agonists and antagonists is that their action is different in various tissues, thereby granting the possibility to selectively inhibit or stimulate estrogen-like action in various tissues.
Members
Members include:
Uses
SERMs are used dependent on their pattern of action in various tissues:
- clomifene is used in anovulation
- raloxifene is used for osteoporosis and reducing risk of invasive breast cancer
- tamoxifen and toremifene are used for breast cancer
- ormeloxifene is used for contraception
Some SERMs may be good replacements for hormone replacement therapy (HRT), which recent studies have called into question, although the above agents still have an unacceptably high risk of thrombosis and other side-effects to allow for widespread use.
Mechanism of action
Estrogenic compounds span a spectrum of activity ranging from:
- full agonists (agonistic in all tissues) such as the natural endogenous hormone estrogen
- mixed agonists/antagonistics (agonistic in some tissues while antagonist in others) such as tamoxifen (a SERM)
- pure antagonists (antagonistic in all tissues) such as fulvestrant (ICI-182780).
The mechanism of mixed agonism/antagonism may differ depending on the chemical structure of the SERM, but for at least for some SERMs, it appears to be related to (1) the ratio of co-activator to co-repressor proteins in different cell types and (2) the conformation of the estrogen receptor induced by drug binding which in turn determines how strongly the drug/receptor complex recruits co-activators (resulting in an agonist response) relative to co-repressors (resulting in antagonism). For example, the prototypical SERM tamoxifen acts as an antagonist in breast and conversely an agonist in uterus. The concentration of steroid receptor co-activator 1 (SRC-1; NCOA1) is higher in uterus than in breast, therefore SERMs such as tamoxifen are more agonistic in uterus than in breast. In contrast, raloxifene behaves as an antagonist in both tissues. It appears that raloxifene more strongly recruits co-repressor proteins and consequently is still an antagonist in the uterus despite the higher concentration of co-activators relative to co-repressors.[2][3]
Actions
The actions of SERMs on various tissues:
- Pituitary gland - clomifene blocks estrogen action, leading to an increase of follicle-stimulating hormone.
- Uterus - tamoxifen may increase endometrial carcinoma risk, but raloxifene does not. Data on toremifene and clomifene is insufficient.
- Breast - all SERMs decrease breast cancer risk, and tamoxifen is mainly used for its ability to inhibit growth in estrogen receptor-positive breast cancer.
- Deep venous thrombosis - the risk may be elevated in all SERMs.
- Cholesterol and triglycerides - levels respond favorably to SERMs.
- Bone turnover and postmenopausal osteoporosis respond favorably to SERMs.
- Hot flashes are increased by all SERMs.
References
- ↑ Riggs BL, Hartmann LC (2003). "Selective estrogen-receptor modulators -- mechanisms of action and application to clinical practice". N Engl J Med 348 (7): 618-29. doi:10.1056/NEJMc030651. PMID 12584371.
- ↑ Shang Y, Brown M (2002). "Molecular determinants for the tissue specificity of SERMs". Science 295 (5564): 2465-8. doi:10.1126/science.1068537. PMID 11923541.
- ↑ Smith CL, O'Malley BW (2004). "Coregulator function: a key to understanding tissue specificity of selective receptor modulators". Endocr Rev 25 (1): 45-71. doi:10.1210/er.2003-0023. PMID 14769827.
See also
Selective progesterone receptor modulator
External links
- AACR Cancer Concepts Factsheet on SERMs
- STAR: a head-to-head comparison of tamoxifen and raloxifene as breast-cancer preventatives
Acknowledgement and Attribution Regarding Sources of Content
Some of the initial content on this page may be incorporated in part from copyleft sources in the public domain including wikis such as Wikipedia and AskDrWiki. Drug information for patients came from the The National Library of Medicine. Infectious disease information may have come from the Centers for Disease Control (CDC). Differential Diagnoses are drawn from clinicians as well as an amalgamation of 3 sources: 1.The Disease Database; 2. Kahan, Scott, Smith, Ellen G. In A Page: Signs and Symptoms. Malden, Massachusetts: Blackwell Publishing, 2004:3; 3. Sailer, Christian, Wasner, Susanne. Differential Diagnosis Pocket. Hermosa Beach, CA: Borm Bruckmeir Publishing LLC, 2002:7 .
