Retinol binding protein-albumin domain III fusion protein deactivates hepatic stellate cells

Fusion protein of retinol-binding protein and albumin domain III reduces liver fibrosis

Activated hepatic stellate cells (HSCs) play a key role in liver fibrosis, and inactivating HSCs has been considered a promising therapeutic approach. We previously showed that albumin and its derivative designed for stellate cell-targeting, retinol-binding protein-albumin domain III fusion protein (referred to as R-III), inactivate cultured HSCs. Here, we investigated the mechanism of action o...

Transfer of retinol from parenchymal to stellate cells in liver is mediated by retinol-binding protein.

Newly absorbed chylomicron remnant retinyl ester is endocytosed by parenchymal liver cells, and retinol is subsequently transferred to perisinusoidal stellate cells in liver. In the present study we have used several approaches to elucidate the mechanism for the paracrine transfer of retinol between liver parenchymal and stellate cells. In one series of experiments, chylomicrons labeled with [3...

Transfer of retinol-binding protein from HepG2 human hepatoma cells to cocultured rat stellate cells.

Rat liver stellate cells were cocultured with HepG2 human hepatoma cells, which are known to synthesize and secrete retinol-binding protein (RBP). Transfer of human RBP from HepG2 cells to stellate cells was studied by cryoimmunoelectron microscopy. In stellate cells, human RBP was found on the cell surface and within endosomes. The transfer of human RBP from HepG2 cells to stellate cells was b...

Urinary albumin and retinol-binding protein in diabetes.

LIM-domain protein cysteine- and glycine-rich protein 2 (CRP2) is a novel marker of hepatic stellate cells and binding partner of the protein inhibitor of activated STAT1.

Activation of hepatic stellate cells is considered to be the main step in the development of liver fibrosis, which is characterized by the transition of quiescent vitamin-A-rich cells to proliferative, fibrogenic and contractile myofibroblasts. The identification of regulatory genes during early cell activation and transdifferentiation is essential to extend our knowledge of hepatic fibrogenesi...