Selective inhibition of glycolysis in hepatic stellate cells and suppression of liver fibrogenesis with vitamin A-derivative decorated camptothecin micelles

Abstract

The persistent transformation of quiescent hepatic stellate cells (HSCs) into myofibroblasts (MFs) and the excessive proliferation of MF-HSCs in the liver contribute to the pathogenesis of liver fibrosis, cirrhosis, and liver cancer. Glycolysis inhibition of MF-HSCs can reverse their MF phenotype and suppress their abnormal expansion. Here, we have developed vitamin A-derivative (VA) decorated PEG-PCL polymeric micelles to encapsulate the labile and hydrophobic camptothecin (CPT) and direct its active attack on HSCs, selectively inhibiting of HIF-1α and cellular glycolysis, ultimately repressing hepatic fibrogenesis. The obtained micelles exhibited a good stability, biocompatibility, pH sensitivity, and exceptional HSC-targetability, allowing an efficient accumulation of their carried CPT in acutely and chronically injured livers. On their intracellular release of CPT specifically in MF-HSCs, these CPT micelles nicely inhibited the HIF-1α and a series of glycolytic players in MF-HSCs and prominently suppressed their proliferation and MF phenotypic characteristics. Accordingly, on in vitro administration to the mice challenged by CCl₄ or subjected to bile duct ligation, these VA-decorated CPT micelles ameliorated the pathological symptoms of the livers, as evidenced by the significant reduction in serum levels of ALT and AST, infiltration of inflammatory cells, and collagen accumulation, the drastic down-regulation of multiple fibrotic genes, and the good recovery of attenuated hepatocyte CYP2E1 and lipogenesis regulator PPARγ. Overall, the CPT carried by VA-decorated PEG-PCL polymeric micelles can selectively inhibit the glycolysis and expansion of HSCs and thus suppress fibrogenesis, providing an original and effective approach for anti-fibrotic therapy. STATEMENT OF SIGNIFICANCE: Our work introduces an innovative antifibrotic drug system that is developed upon the active targeting of CPT and aims for the fate reversal of HSCs. Through HSC-targeted delivery achieved by PEG-PCL polymeric micelles decorated with vitamin A-derivatives, CPT significantly suppressed the expressions of HIF-1α and glycolytic enzymes in MF-HSCs, as well as their pathologic expansion in mouse livers. It effectively ameliorated chronic liver fibrosis in mice induced by CCl₄ injection or BDL and restored the damaged liver structure and function. These compelling findings demonstrate the therapeutic potential of glycolytic HSC-targeting in combating fibrosis and related disorders and thus provide new promise for future clinical management of such prevalent and life-threatening conditions.

Keywords: Camptothecin; Hepatic stellate cell; Liver fibrosis; Micelle; Targeted delivery.