Enhancing skin delivery of tranexamic acid via esterification: synthesis and evaluation of alkyl ester derivatives

Abstract

Tranexamic acid (TA) is widely used clinically as a skin whitening agent for treating melasma and hyperpigmentation. However, oral administration of TA is often associated with adverse effects. Topical application could mitigate these issues, but the hydrophilic nature of TA limits its topical use. To overcome this limitation, we explored the design of TA alkyl ester prodrugs to enhance skin absorption. Our study specifically focused on the butyl and octyl ester derivatives of TA. The results demonstrated that TA4 and TA8 significantly improved skin penetration and deposition, by approximately 2–3 times compared to unmodified TA. Furthermore, these derivatives were rapidly hydrolyzed to release the parent drug within less than 2 h in both skin homogenates and blood. Safety assessments indicated no significant skin irritation in mice and revealed low cytotoxicity in HaCaT cells when exposed to the TA ester derivatives. We also developed a hydrogel formulation incorporating the TA derivatives, using hydroxyethyl cellulose, propylene glycol, Tween 80, and chlorobutanol. This formulation exhibited good skin absorption, stability, and user experience, making it a promising candidate for topical application. To sum up, the alkyl esterification prodrug design provides a promising approach for enhancing the skin delivery of TA.