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Homosalate

Homosalate[1]
Skeletal formula
Space-filling model
Names
IUPAC name
3,3,5-Trimethylcyclohexyl 2-hydroxybenzoate
Other names
Homosalate
Identifiers
3D model (JSmol)
ChemSpider
ECHA InfoCard 100.003.874 Edit this at Wikidata
KEGG
UNII
  • InChI=1S/C16H22O3/c1-11-8-12(10-16(2,3)9-11)19-15(18)13-6-4-5-7-14(13)17/h4-7,11-12,17H,8-10H2,1-3H3 checkY
    Key: WSSJONWNBBTCMG-UHFFFAOYSA-N checkY
  • InChI=1/C16H22O3/c1-11-8-12(10-16(2,3)9-11)19-15(18)13-6-4-5-7-14(13)17/h4-7,11-12,17H,8-10H2,1-3H3
    Key: WSSJONWNBBTCMG-UHFFFAOYAJ
  • O=C(OC1CC(CC(C1)(C)C)C)c2ccccc2O
Properties
C16H22O3
Molar mass 262.349 g·mol−1
Density 1.05 g/cm3 (20 °C)[2]
Melting point < -20 °C[2]
Boiling point 181–185 °C (358–365 °F; 454–458 K)[2]
0.4 mg/L
Hazards
Flash point 171 °C (340 °F; 444 K)[2]
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
checkY verify (what is checkY☒N ?)

Homosalate is an organic compound used in some sunscreens. It is made by the Fischer–Speier esterification of salicylic acid and 3,3,5-trimethylcyclohexanol, the latter being a hydrogenated derivative of isophorone. Contained in 45% of U.S. sunscreens, it is used as a chemical UV filter.[3] The salicylic acid portion of the molecule absorbs ultraviolet rays with a wavelength from 295 nm to 315 nm, protecting the skin from sun damage. The hydrophobic trimethyl cyclohexyl group provides greasiness that prevents it from dissolving in water.

Safety

Homosalate was identified in a court case brought by German chemical company Symrise who claimed that the ingredient used in sunscreen did not require animal testing.

Symrise lost the appeal against a European Chemicals Agency (ECHA) decision that requires the German manufacturer to test sunscreen ingredients on animals.[4]

The Court of Justice of the European Union (CJEU) decision applies to two formerly approved ingredients used exclusively in sunscreens — UV filter homosalate and 2-ethylhexyl salicylate.[5][6]

Similar to other UV filter compounds,[7] more homosalate is absorbed into the uppermost stratum corneum (ie, the stratum disjunctum) of the face (25% of applied dose) versus back of volunteers. This amounted to approximately two to three times the amount of sunscreen that was present in the superficial stratum corneum layers of the face compared with the back. There was no homosalate detected in the urine samples or blood plasma samples of the volunteers in this study.[8][9]

Homosalate has been identified as an antiandrogen (testosterone blocker) in vitro,[10] as well as having estrogenic activity toward estrogen receptors α,[11] and general in vitro estrogenic activity.[12] Homosalate has been shown to be an antagonist toward androgen and estrogen receptors in vitro.[13] Some work has shown that organic UV filters in general can present concerns.[14]

There is no in vivo evidence of toxicity, endocrine disfunction or adverse effects; and none of these adverse events have ever been reported to occur in humans.

An in vivo study involving repeated subcutaneous injections of homosalate at dose levels up to 1000mg/kg of body weight to juvenile female Wistar rats over three consecutive days revealed no estrogenic potential in the uterotrophic assay. Another study on immature Long-Evans rats receiving up to 892 mg/kg of body weight of homosalate in their daily diet found no estrogenic effects in vivo. Research on zebra fish also found no estrogenic effects after being continuously exposed to homosalate for 96 hours straight. The SCCS has declared there is no sufficient evidence that identifies pure homosalate as an endocrine disruptor in humans and further declared that in vivo research has confirmed that homosalate has no genotoxic, phototoxic or photosensitive effects when applied topically.[9]

References

  1. ^ Homosalate, Merck Index, 11th Edition, 4660.
  2. ^ a b c d Record in the GESTIS Substance Database of the Institute for Occupational Safety and Health
  3. ^ Homosalate, ChemIDplus.
  4. ^ "Animal tests for makeup ingredients allowed". BBC News. 5 May 2023.
  5. ^ "CURIA - Documents".
  6. ^ "CURIA - Documents".
  7. ^ Rougier A, Dupuis D, Lotte C, Roguet R, Wester RC, Maibach HI (1986). "Regional variation in percutaneous absorption in man: measurement by the stripping method". Arch. Dermatol. Res. 278 (6): 465–469. doi:10.1007/bf00455165. PMID 3789805. S2CID 24610879.
  8. ^ Benson HA, Sarveiya V, Risk S, Roberts MS (2005). "Influence of anatomical site and topical formulation on skin penetration of sunscreens". Ther Clin Risk Manag. 1 (3): 209–218. PMC 1661631. PMID 18360561.
  9. ^ a b "OPINION on Homosalate" (PDF). Scientific Committee on Consumer Safety. June 2021.
  10. ^ Ma, R.; Cotton, B.; Lichtensteiger, W.; Schlumpf, M. (2003). "UV Filters with Antagonistic Action at Androgen Receptors in the MDA-kb2 Cell Transcriptional-Activation Assay". Toxicological Sciences. 74 (1): 43–50. doi:10.1093/toxsci/kfg102. PMID 12730620.
  11. ^ Gomez E, Pillon A, Fenet H, Rosain D, Duchesne MJ, Nicolas JC, Balaguer P, Casellas C (2005). "Estrogenic activity of cosmetic components in reporter cell lines: parabens, UV screens, and musks". J Toxicol Environ Health A. 68 (4): 239–251. Bibcode:2005JTEHA..68..239G. doi:10.1080/15287390590895054. PMID 15799449. S2CID 41796996.
  12. ^ Schlumpf M, Schmid P, Durrer S, Conscience M, Maerkel K, Henseler M, Gruetter M, Herzog I, Reolon S, Ceccatelli R, Faass O, Stutz E, Jarry H, Wuttke W, Lichtensteiger W (2004). "Endocrine activity and developmental toxicity of cosmetic UV filters--an update". Toxicology. 205 (1–2): 113–122. Bibcode:2004Toxgy.205..113S. doi:10.1016/j.tox.2004.06.043. PMID 15458796.
  13. ^ Schreurs RH, Sonneveld E, Jansen JH, Seinen W, van der Burg B (February 2005). "Interaction of polycyclic musks and UV filters with the estrogen receptor (ER), androgen receptor (AR), and progesterone receptor (PR) in reporter gene bioassays". Toxicol. Sci. 83 (2): 264–272. doi:10.1093/toxsci/kfi035. PMID 15537743.
  14. ^ Klimova, et al. (2013). "Current problems in the use of organic UV filters to protect skin from excessive sun exposure" (PDF). Acta Chimica Slovaca. 6 (1): 82–88. doi:10.2478/acs-2013-0014. S2CID 42677951.
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