Selective androgen receptor modulator

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Selective androgen receptor modulators or SARMs are a novel class of androgen receptor ligands. (The name follows the terminology currently used for similar molecules targeting the estrogen receptor, "selective estrogen receptor modulators," such as Tamoxifen.) They are intended to have the same kind of effects as androgenic drugs like anabolic steroids but be much more selective in their action,[1] allowing them to be used for many more clinical indications than the relatively limited legitimate uses that anabolic steroids are currently approved for.

Comparison to testosterone

Currently used androgens for male hormone replacement therapy are typically injectable or skin delivery formulations of testosterone or testosterone esters. Injectable forms of testosterone esters (such as testosterone enanthate, propionate, or cypionate) produce undesirable fluctuations in testosterone blood levels, with overly high levels shortly after injection and overly low afterwards. Skin patches do provide a better blood level profile of testosterone, but skin irritation and daily application still limit their usefulness. Oral androgens are not currently used due to concerns about liver toxicity.

SARMs provide the opportunity to design molecules that can be delivered orally, but that selectively target the androgen receptors in different tissues differently. The goal of research in this area is to allow a customized response: tissues that are the target of the therapy will respond as they would to testosterone; other tissues where undesirable side effects are produced will not.

None of the SARMs yet developed are truly selective for anabolic effects in muscle or bone tissues without producing any androgenic effects in tissues such as the prostate gland, however several non-steroidal androgens show a ratio of anabolic to androgenic effects of greater than 3:1 and up to as much as 10:1, compared to testosterone which has a ratio of 1:1.[2][3][4]

This suggests that while SARMs are likely to show some virilizing effects when used at high doses (e.g., use by bodybuilders), at lower therapeutic doses they may well be effectively selective for anabolic effects, which will be important if SARMs are to have clinical application in the treatment of osteoporosis in women. One substantial advantage of even the first-generation SARMs developed to date is that they are all orally active without causing liver damage, whereas most anabolic steroids are not active orally and must be injected, and those anabolic steroids which are orally active tend to cause dose-dependent liver damage which can become life-threatening with excessive use. Research is continuing into more potent and selective SARMs, as well as optimising characteristics such as oral bioavailability and increased half-life in vivo, and seeing as the first tissue-selective SARMs were only demonstrated in 2003, the compounds tested so far represent only the first generation of SARMs and future development may produce more selective agents compared to those available at present.[5][6][7]

Selectivity in men

For example, if the target is bone growth in elderly men with osteopenia or osteoporosis, but with no overt signs of hypogonadism, a SARM targeting bone and muscle tissue, but with lesser activity on the prostate or testes would be more desirable.[8]

Selectivity in women

A SARM for women would ideally stimulate bone retention, or libido and other sexual function that androgens can influence, without negative side effects such as development of male gender characteristics (virilization), increased LDL/HDL ratios, liver dysfunction, and so forth.[9]

Examples

In clinical testing

  • Ostarine [10] - affects both muscle and bone, intended mainly for osteoporosis but also general treatment for andropause

Pre-clinical

  • LGD-2226 - affects both muscle and bone
  • S-40503 - selective for bone tissue, particularly low virilization, intended for osteoporosis and may be suitable for use in women
  • S-23 - under development as a male hormonal contraceptive[15]

Examples no longer being developed

See also

References

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  8. Ke HZ, Wang XN, O'Malley J, Lefker B, Thompson DD (2005). "Selective androgen receptor modulators--prospects for emerging therapy in osteoporosis?" (PDF). J Musculoskelet Neuronal Interact. 5 (4): 355. PMID 16340136. 
  9. Negro-Vilar A (1999). "Selective androgen receptor modulators (SARMs): a novel approach to androgen therapy for the new millennium". J. Clin. Endocrinol. Metab. 84 (10): 3459–62. doi:10.1210/jc.84.10.3459. PMID 10522980. 
  10. Kearbey JD, Gao W, Narayanan R; et al. (2007). "Selective Androgen Receptor Modulator (SARM) treatment prevents bone loss and reduces body fat in ovariectomized rats". Pharm. Res. 24 (2): 328–35. doi:10.1007/s11095-006-9152-9. PMC 2039878Freely accessible. PMID 17063395. 
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  13. Allan GF, Tannenbaum P, Sbriscia T; et al. (2007). "A selective androgen receptor modulator with minimal prostate hypertrophic activity enhances lean body mass in male rats and stimulates sexual behavior in female rats". Endocrine. 32 (1): 41–51. doi:10.1007/s12020-007-9005-2. PMID 17992601. 
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