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Potential Involvement of Sulfotransferase in the Mechanism of Lamotrigine-induced Skin Rash

Yanshan Cao, Ahsan F. Bairam, Ming‐Cheh Liu, Jack Uetrecht

2023Chemical Research in Toxicology13 citationsDOIOpen Access PDF

Abstract

The mechanism of drug-induced skin rash is not well understood. Circumstantial evidence suggests that the covalent binding of a reactive metabolite is involved in the mechanism of most idiosyncratic drug reactions. However, there is a limited quantity of drug metabolizing enzymes in the skin, except for sulfotransferases. It is possible that some drugs are metabolized to reactive sulfate metabolites that are responsible for skin rashes. For example, nevirapine-induced skin rash involves metabolism of nevirapine to 12-hydroxy-nevirapine, which is further metabolized by sulfotransferase in the skin to a reactive benzylic sulfate that covalently binds to proteins. The working hypothesis is that lamotrigine, valdecoxib, and sertraline skin rashes involve the formation of reactive sulfate in the skin. Lamotrigine- N -oxide, hydroxy-valdecoxib, and hydroxy-sertraline were tested as substrates with known human sulfotransferases. Hydroxy-valdecoxib and the benzylic alcohol metabolite of sertraline were not substrates for human sulfotransferases. Therefore, this pathway is presumably not involved in the mechanism by which they cause skin rashes. In contrast, lamotrigine- N -oxide is a substrate for several human sulfotransferases and the sulfate is chemically reactive. Furthermore, lamotrigine- N -sulfate not only alkylates proteins as we described previously but also forms the sulfate of tyrosine, suggesting another possible mechanism for protein modification. This study has further added to the understanding of the potential of the sulfotransferase pathways and protein sulfation to play a role in drug-induced skin rash.

Topics & Concepts

ChemistrySulfotransferaseLamotrigineSulfationValdecoxibMetaboliteReactive intermediateBiochemistryPharmacologyEnzymeCyclooxygenaseMedicineEpilepsyRofecoxibCatalysisPsychiatryDrug-Induced Adverse ReactionsHIV/AIDS drug development and treatmentBlood groups and transfusion
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