BACKGROUND: Hepatic stellate cells (HSC) are important mediators of liver fibrosis. HSC express purinergic receptors for extracellular ATP that induce fibrogenesis. Pyridoxal-phosphate-6-azophenyl-2', 4'-disulfonate (PPADS) is a highly bioavailable purinoceptor inhibitor. We sought to determine whether PPADS could prevent experimental liver fibrosis in rats. MATERIALS AND METHODS: The effect of PPADS as an inhibitor of HSC purinoceptors was compared to the effect of suramin using confocal video microscopy. Rats were treated with CCl4, dimethylnitrosamine, or common bile duct ligation in the presence or absence of PPADS. Fibrosis in liver sections was assessed using Trichrome and Sirius red stains. In HSC isolated from experimental animals, proliferation was determined by bromodeoxyuridine uptake, apoptosis was determined using Annexin V flow cytometry, and transcription of alpha(1)-procollagen and fibronectin were determined using quantitative RT-PCR. RESULTS: Both PPADS and suramin inhibited HSC purinoceptor activation, but PPADS had a more durable effect. PPADS completely blocked the development of cirrhosis due to CCl4 or dimethylnitrosamine but not due to bile duct ligation. PPADS inhibited HSC proliferation, but had no effect on HSC apoptosis. PPADS inhibited transcription of alpha(1)-procollagen and fibronectin by HSC. CONCLUSION: Blockade of purinergic receptors is a novel approach to prevention of non- biliary liver fibrosis. The primary action of PPADS is to inhibit HSC proliferation and fibrogenesis. Future design of purinergic receptor inhibitors may be an effective pharmacologic treatment to prevent liver fibrosis.
BACKGROUND: Hepatic stellate cells (HSC) are important mediators of liver fibrosis. HSC express purinergic receptors for extracellular ATP that induce fibrogenesis. Pyridoxal-phosphate-6-azophenyl-2', 4'-disulfonate (PPADS) is a highly bioavailable purinoceptor inhibitor. We sought to determine whether PPADS could prevent experimental liver fibrosis in rats. MATERIALS AND METHODS: The effect of PPADS as an inhibitor of HSC purinoceptors was compared to the effect of suramin using confocal video microscopy. Rats were treated with CCl4, dimethylnitrosamine, or common bile duct ligation in the presence or absence of PPADS. Fibrosis in liver sections was assessed using Trichrome and Sirius red stains. In HSC isolated from experimental animals, proliferation was determined by bromodeoxyuridine uptake, apoptosis was determined using Annexin V flow cytometry, and transcription of alpha(1)-procollagen and fibronectin were determined using quantitative RT-PCR. RESULTS: Both PPADS and suramin inhibited HSC purinoceptor activation, but PPADS had a more durable effect. PPADS completely blocked the development of cirrhosis due to CCl4 or dimethylnitrosamine but not due to bile duct ligation. PPADS inhibited HSC proliferation, but had no effect on HSC apoptosis. PPADS inhibited transcription of alpha(1)-procollagen and fibronectin by HSC. CONCLUSION: Blockade of purinergic receptors is a novel approach to prevention of non- biliary liver fibrosis. The primary action of PPADS is to inhibit HSC proliferation and fibrogenesis. Future design of purinergic receptor inhibitors may be an effective pharmacologic treatment to prevent liver fibrosis.
Authors: Linda Feldbrügge; Z Gordon Jiang; Eva Csizmadia; Shuji Mitsuhashi; Stephanie Tran; Eric U Yee; Sonja Rothweiler; Kahini A Vaid; Jean Sévigny; Moritz Schmelzle; Yury V Popov; Simon C Robson Journal: Purinergic Signal Date: 2017-11-13 Impact factor: 3.765
Authors: Elwy M Soliman; Michele Angela Rodrigues; Dawidson Assis Gomes; Nina Sheung; Jin Yu; Maria Jimina Amaya; Michael H Nathanson; Jonathan A Dranoff Journal: Cell Calcium Date: 2009-01-07 Impact factor: 6.817
Authors: Ana Ramírez; Alma Yolanda Vázquez-Sánchez; Natalia Carrión-Robalino; Javier Camacho Journal: Oxid Med Cell Longev Date: 2016-01-05 Impact factor: 6.543