Abstract
Targeting of antifibrotic drugs to hepatic stellate cells (HSC) is a promising strategy to block fibrotic processes leading to liver cirrhosis. For this purpose, we utilized the neo-glycoprotein mannose-6-phosphate-albumin (M6PHSA) that accumulates efficiently in HSC during liver fibrosis. Pentoxifylline (PTX), an antifibrotic compound that inhibits HSC proliferation and activation in vitro, was conjugated to M6PHSA. We employed a new type of platinum-based linker, which conjugates PTX via coordination chemistry rather than via covalent linkage. When incubated in plasma or in the presence of thiol compounds, free PTX was released from PTX-M6PHSA at a sustained slow rate. PTX-M6PHSA displayed pharmacological activity in cultured HSC as evidenced by changes in cell morphology and reduction of collagen I production. PTX-M6PHSA and platinum coupled PTX did not induce platinum-related toxicity (Alamar Blue viability assay) or apoptosis (caspase activation and TUNEL staining). In vivo distribution studies in fibrotic rats demonstrated specific accumulation of the conjugate in nonparenchymal cells in the fibrotic liver. In conclusion, we have developed PTX-M6PHSA employing a novel type of platinum linker, which allows sustained delivery of the drug to HSC in the fibrotic liver. © 2005 Elsevier B.V. All rights reserved.
Original language | English |
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Pages (from-to) | 193-203 |
Number of pages | 11 |
Journal | Journal of Controlled Release |
Volume | 111 |
Issue number | 1-2 |
DOIs | |
Publication status | Published - 10 Mar 2006 |
Keywords
- Antifibrotic drugs
- Drug targeting
- Linker technology
- Liver fibrosis
- Organoplatinum compounds
- caspase
- cisplatin
- collagen type 1
- mannose 6 phosphate albumin
- neoglycoprotein
- pentoxifylline
- platinum
- thiol derivative
- unclassified drug
- animal cell
- animal tissue
- apoptosis
- article
- cell activation
- cell proliferation
- cell structure
- chemistry
- controlled study
- drug conjugation
- drug delivery system
- drug selectivity
- drug targeting
- enzyme activation
- inhibition kinetics
- liver cirrhosis
- male
- medical technology
- TUNEL assay
- nonhuman
- plasma
- priority journal
- rat
- stellate cell
- toxicity