Targeting hyperactive mitochondria in activated HSCs and inhibition of liver fibrogenesis in mice using sorafenib complex micelles

Abstract

Liver fibrosis is a pathological condition marked by the excessive buildup of extracellular matrix primarily resulting from the transformation of quiescent hepatic stellate cells (HSCs) to myofibroblastic (MF) phenotype and their resultant over-expansion. Activated HSCs completely rely on their hyperactive mitochondria to supply the energy and biomass for their rapid proliferation and collagen secretion, so an intervention targeting their mitochondria can effectively restrict their pathological amplification and contribution to liver fibrosis. Here we tried sorafenib, a drug that plays anticancer roles by inducing the disruption and loss of mitochondrial functions, to reach an antifibrotic goal. And a complex micellar system, VA-PEG-PCL/TPGS (VPP/TPGS), was specifically designed and fabricated to encapsulate and deliver sorafenib selectively to activated HSCs to overcome its application limitations in bioavailability, toxicity and intracellular stay, and eventually maximize its induction of mitochondrial dysfunction and therapeutically antifibrotic efficacy. The prepared sorafenib complex micelles not only exhibited a suitable particle size, uniform morphology, and nice stability, but also performed excellently in the biosafety and HSCs-targetability in vitro and in vivo. In human active HSC cell lines, they markedly attenuated mitochondrial hyperactivity, induced apoptosis, and downregulated fibrosis markers as expected; while in a CCl₄-induced murine model of hepatic fibrosis, they effectively restricted the expansion of MF-HSCs, reduced collagen deposition, and promoted the healing of liver damage, showing a good potential in fibrosis curation. Collectively, our VPP/TPGS complex micelles provide an ideal drug delivery platform that has the potential to revolutionize the treatment of liver fibrosis via addressing its cellular and metabolic underpinnings and thus improve patient outcomes.