Mitochondria-targeted curcumin loaded CTPP-PEG-PCL self-assembled micelles for improving liver fibrosis therapy

Liver fibrosis, originating from activated hepatic stellate cells (HSCs), is receiving much attention in the treatment of clinical liver disease. In this study, mitochondria-targeted curcumin (Cur) loaded 3-carboxypropyl-triphenylphosphonium bromide-poly(ethylene glycol)-poly( -caprolactone) (CTPP-PEG-PCL) micelles were constructed to prolong the systemic circulation of Cur, improve the bioavailability of Cur and play a precise role in anti-fibrosis. The prepared Cur-CTPP-PEG-PCL micelles with a spherical shape had satisfactory dispersion, low critical micelle concentration (CMC) and high encapsulation efficiency (92.88%). The CTPP modification endowed good endosomal escape ability to the CTPP-PEG-PCL micelles, and micelles could be selectively accumulated in mitochondria, thereby inducing the enhanced cell proliferation inhibition of HSC-T6 cells. Mitochondrial Membrane Potential (MMP) was greatly reduced due to the mitochondrial-targeting of Cur. Moreover, the system circulation of Cur was extended and bioavailability was significantly enhanced in vivo . As expected, Cur loaded CTPP-PEG-PCL micelles were more effective in improving liver fibrosis compared with Cur and Cur-mPEG-PCL micelles. In conclusion, the Cur-CTPP-PEG-PCL based micelles can be a potential candidate for liver fibrosis treatment in future clinical applications. A mitochondria-targeting micelle system based on CTPP-PEG-PCL polymer was designed to deliver curcumin to active HSC-T6 cells and prolong the systemic circulation and bioavailability of curcumin in vivo for effective treatment of liver fibrosis.