Preparation and appraisal of self-assembled valsartan-loaded amalgamated Pluronic F127/Tween 80 polymeric micelles: Boosted cardioprotection via regulation of Mhrt/Nrf2 and Trx1 pathways in cisplatin-induced cardiotoxicity

This study aimed to develop valsartan (VAL)-loaded mixed micelles and investigate their cardioprotective potential and molecular mechanisms through Mhrt/Nrf2 and Trx1 pathways. VAL-loaded mixed micelles have not been elaborated and their impact on Mhrt/Nrf2 and Trx1 pathways has not been yet inspected. VAL-loaded mixed micelles were prepared, incorporating Pluronic F127 and Tween 80, adopting thin-film hydration method. The micelles were evaluated for drug entrapment efficiency, loading characteristics, particle size, morphology, in vitro drug release and micelles storage stability. The pharmacokinetic studies were explored in rats. Also, VAL suspension and mixed micelles were tested in cisplatin-induced cardiotoxicity in rats either pre to or simultaneously with cisplatin. RNA expression of lnc Mhrt and protein expression of Nrf2, Trx1, Ask1, AMPK and caspase 3, oxidative stress and cardiac injury markers besides tailed DNA% by comet assay were assessed. Pharmacokinetic studies evoked a 3.75-fold increase in oral bioavailability as compared with VAL suspension. Overall, treatment with VAL-loaded mixed micelles was superior to VAL suspension in decreasing oxidative stress and cardiac injury markers and restoring the abnormalities occurred in Mhrt/Nrf2 and Trx1 pathways. Thus, mixed micelles would be promising nanocarrier for the engineering of VAL with reinforced pharmacokinetics and cardioprotection characteristics.