Abstract
BackgroundRenal tubular injury induced by free fatty acid bound to albumin is the key pathological basis for the progression of diabetic kidney disease. However, effective interventions are limited. Astragaloside IV, as a major bioactive component purified from Astragalus membranaceus (Fisch.) Bunge, possesses pharmacological properties of lowering blood glucose and proteinuria, and renal tubular protection in diabetic kidney disease. Further work is needed to understand the underlying molecular mechanisms. PurposeThis study was designed to investigate the mechanism of renal tubular protection by astragaloside IV in diabetic kidney disease. MethodsRats receiving high-fat diet combined with streptozotocin (30 mg/kg, i.p.) were gavaged with astragaloside IV (10 mg/kg/d or 20 mg/kg/d) or empagliflozin (1.72 mg/kg/d) for 8 weeks. In vitro, the NRK-52E cells were treated with free fatty acid-deleted BSA or palmitic acid-bound BSA in the presence or absence of astragaloside IV (5 μM, 10 μM, 20 μM) or 5 μM of mcc950. The effects of astragaloside IV on mitochondrial function, NLRP3/ASC/IL-18/IL-1β inflammatory cascade, and renal tubular injury were detected by pathological staining, immunoblotting, MitoSOX Red staining. Next, to investigate the mechanism of renal tubular protection by astragaloside IV, we transfected Fatp2 siRNA into BSA-PA-treated NRK-52E cells and injected lipofermata (a FATP2 inhibitor) intraperitoneally into free fatty acid-bound BSA overloaded rats with concomitant astragaloside IV treatment. ResultsTreatment with astragaloside IV for 8 weeks dose-dependently attenuated the blood glucose, ratio of urinary albumin to creatinine, disorder of lipid metabolism, and pathological injury in diabetic kidney disease rats. In addition, astragaloside IV dose-dependently attenuated mitochondrial-derived reactive oxygen species and subsequent inhibiting NLRP3-mediated inflammatory cascade in diabetic kidney disease rats and palmitic acid-bound BSA-treated NRK-52E cells, thereby exerting renal tubular protection. More importantly, the effects of astragaloside IV on restoration of mitochondrial function, inhibition of inflammatory response and amelioration of renal tubular injury in vivo and in vitro were further enhanced when used in combination with Fatp2 siRNA or lipofermata. ConclusionAstragaloside IV exerts antioxidant and anti-inflammatory effects in diabetic kidney disease by inhibiting FATP2-mediated fatty acid transport, thereby attenuating renal tubular injury.
Published Version
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