Chemical compound
Minoxidil sulfate |
Clinical data |
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Other names | Minoxidil sulphate; Minoxidil sulfate ester; Minoxidil sulphate ester; Minoxidil N-O-sulfate; Minoxidil N-O-sulphate; U-58838 |
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ECHA InfoCard | 100.163.834 |
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Chemical and physical data |
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Formula | C9H15N5O4S |
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Molar mass | 289.31 g·mol−1 |
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3D model (JSmol) | |
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InChI=1S/C9H15N5O4S/c10-7-6-8(13-4-2-1-3-5-13)12-9(11)14(7)18-19(15,16)17/h6H,1-5H2,(H4,10,11,12,15,16,17) Key:OEOLOEUAGSPDLT-UHFFFAOYSA-N |
Minoxidil sulfate, also known as minoxidil sulfate ester or minoxidil N-O-sulfate, is an active metabolite of minoxidil (Rogaine, Loniten, others) and is the active form of this agent.[1][2] Minoxidil acts as a prodrug of minoxidil sulfate.[1] Minoxidil sulfate is formed from minoxidil via sulfotransferase enzymes, with the predominant enzyme responsible, at least in hair follicles, being SULT1A1.[1][2] Minoxidil sulfate acts as a potassium channel opener, among other actions, and has vasodilating, hypotensive, and trichogenic or hypertrichotic (hair growth-promoting) effects.[1][3] Its mechanism of action in terms of hair growth is still unknown, although multiple potential mechanisms have been implicated.[1]
Minoxidil sulfate is a sulfate ester of minoxidil, not a sulfate salt of the compound.[3] However, minoxidil sulfate forms an inner salt, which makes it more hydrophobic than minoxidil.[3] This is in contrast to most sulfate esters, which are usually more hydrophilic than their non-ester forms.[3] The bioactivation of minoxidil into minoxidil sulfate is very unusual and is among the only known instances of sulfation producing a more active drug form.[3][4] Normally, sulfation tends to inactivate drugs by reducing their biological activity and increasing their excretion.[3][4]
Minoxidil sulfate is highly unstable in aqueous solutions and alcohol-containing solvents, with a half-life of 6 hours in aqueous solutions and a further much lower half-life in alcohol-containing solvents.[3] This has served as a limiting factor in its potential pharmaceutical use and therapeutic effectiveness.[5] Moreover, minoxidil sulfate has a 40% higher molecular weight than minoxidil, and this may reduce its absorption into the scalp.[5] In any case, a minoxidil sulfate-based topical formulation has been investigated for the treatment of scalp hair loss.[6][5] Additionally, minoxidil-sulfate-based topical formulations appear to be available for medical use in some parts of the world, for instance in Brazil.[5][7]
References
- ^ a b c d e Gupta AK, Talukder M, Venkataraman M, Bamimore MA (June 2022). "Minoxidil: a comprehensive review". The Journal of Dermatological Treatment. 33 (4): 1896–1906. doi:10.1080/09546634.2021.1945527. PMID 34159872. S2CID 235609487.
- ^ a b Villani A, Fabbrocini G, Ocampo-Candiani J, Ruggiero A, Ocampo-Garza SS (July 2021). "Review of oral minoxidil as treatment of hair disorders: in search of the perfect dose". Journal of the European Academy of Dermatology and Venereology. 35 (7): 1485–1492. doi:10.1111/jdv.17216. PMID 33660357. S2CID 232115094.
- ^ a b c d e f g Meisheri KD, Johnson GA, Puddington L (January 1993). "Enzymatic and non-enzymatic sulfation mechanisms in the biological actions of minoxidil". Biochemical Pharmacology. 45 (2): 271–279. doi:10.1016/0006-2952(93)90061-z. PMID 8435087.
- ^ a b Richard B. Silverman (2 December 2012). The Organic Chemistry of Drug Design and Drug Action (2 ed.). Elsevier. pp. 543–. ISBN 978-0-08-051337-9. OCLC 1019583017.
- ^ a b c d Dias PC, Miot HA, Trüeb RM, Ramos PM (October 2018). "Use of Minoxidil Sulfate versus Minoxidil Base in Androgenetic Alopecia Treatment: Friend or Foe?". Skin Appendage Disorders. 4 (4): 349–350. doi:10.1159/000488011. PMC 6219241. PMID 30410915.
- ^ Suchonwanit P, Thammarucha S, Leerunyakul K (2019). "Minoxidil and its use in hair disorders: a review". Drug Design, Development and Therapy. 13: 2777–2786. doi:10.2147/DDDT.S214907. PMC 6691938. PMID 31496654.
- ^ Kelly Y, Tosti A (13 September 2019). "Androgenetic Alopecia: Clinical Treatment". Hair and Scalp Treatments. Springer International Publishing. pp. 91–108. doi:10.1007/978-3-030-21555-2_8. ISBN 978-3-030-21554-5. S2CID 203340151.
Calcium | VDCCsTooltip Voltage-dependent calcium channels | |
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Potassium | VGKCsTooltip Voltage-gated potassium channels | |
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IRKsTooltip Inwardly rectifying potassium channel | Blockers | |
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Activators | - GIRKTooltip G protein-coupled inwardly rectifying potassium channel-specific: ML-297 (VU0456810)
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KCaTooltip Calcium-activated potassium channel | |
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K2PsTooltip Tandem pore domain potassium channel | |
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Sodium | VGSCsTooltip Voltage-gated sodium channels | |
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ENaCTooltip Epithelial sodium channel | |
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ASICsTooltip Acid-sensing ion channel | |
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Chloride | CaCCsTooltip Calcium-activated chloride channel | |
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CFTRTooltip Cystic fibrosis transmembrane conductance regulator | |
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Unsorted | |
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Others | TRPsTooltip Transient receptor potential channels | |
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LGICsTooltip Ligand gated ion channels | |
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See also: Receptor/signaling modulators • Transient receptor potential channel modulators |
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