Abstract
BackgroundTissue Angiotensin II (Ang-II), produced through local non ACE-dependent pathways, stimulates liver fibrogenesis, renal vasoconstriction and sodium retention.AimTo highlight chymase-dependent pathway of Ang-II production in liver and kidney during cirrhosis development.MethodsLiver histology, portal pressure, liver and kidney function, and hormonal status were investigated in rat liver cirrhosis induced through 13 weeks of CCl4, with or without chymase inhibitor SF2809E, administered between 4th and 13th CCl4 weeks; liver and kidney chymase immunolocation and Ang-II content were assessed. Chymase immunohistochemistry was also assessed in normal and cirrhotic human liver, and chymase mRNA transcripts were measured in human HepG2 cells and activated hepatic stellate cells (HSC/MFs) in vitro.ResultsRats receiving both CCl4 and SF2809E showed liver fibrotic septa focally linking portal tracts but no cirrhosis, as compared to ascitic cirrhotic rats receiving CCl4. SF2809E reduced portal pressure, plasma bilirubin, tissue content of Ang-II, plasma renin activity, norepinephrine and vasopressin, and increased glomerular filtration rate, water clearance, urinary sodium excretion. Chymase tissue content was increased and detected in α-SMA-positive liver myofibroblasts and in kidney tubular cells of cirrhotic rats. In human cirrhosis, chymase was located in hepatocytes of regenerative nodules. Human HepG2 cells and HSC/MFs responded to TGF-β1 by up-regulating chymase mRNA transcription.ConclusionsChymase, through synthesis of Ang-II and other mediators, plays a role in the derangement of liver and kidney function in chronic liver diseases. In human cirrhosis, chymase is well-represented and apt to become a future target of pharmacological treatment.
Highlights
In chronic liver diseases, liver fibrosis progression depends on interactions among injured hepatocytes, inflammatory cells, and hepatic myofibroblast (MFs)-like cells that originate from activation of hepatic stellate cells (HSCs) or portal fibroblasts
Portal pressure, liver and kidney function, and hormonal status were investigated in rat liver cirrhosis induced through 13 weeks of CCl4, with or without chymase inhibitor SF2809E, administered between 4th and 13th CCl4 weeks; liver and kidney chymase immunolocation and angiotensin II (Ang-II) content were assessed
Chymase is wellrepresented and apt to become a future target of pharmacological treatment
Summary
Portal pressure, liver and kidney function, and hormonal status were investigated in rat liver cirrhosis induced through 13 weeks of CCl4, with or without chymase inhibitor SF2809E, administered between 4th and 13th CCl4 weeks; liver and kidney chymase immunolocation and Ang-II content were assessed. Rats receiving both CCl4 and SF2809E showed liver fibrotic septa focally linking portal tracts but no cirrhosis, as compared to ascitic cirrhotic rats receiving CCl4. Angiotensin II; αSMA, α-smooth muscle actin; AST, aspartate aminotransferase; AT1, angiotensin type 1 receptor; CCl4, carbon tetrachloride; CIN, inulin clearance; CK, potassium clearance; CNa, sodium clearance; Cosm, osmolar clearance; CPAH, paraaminohippurate clearance; EIA, enzyme immunoassay; ET-1, endothelin-1; ETA, endothelin type A receptor; ETB, endothelin type B receptor; FEK, fractional excretion of potassium; FENa, fractional excretion of sodium; FF, filtration fraction; GFR, glomerular filtration rate; HCV, hepatitis C virus; HSC, hepatic stellate cell; IN, inulin; MAP, mean arterial pressure; MF, myofibroblast; N, norepinephrine; PAH, para-aminohippurate; Posm, plasma osmolality; PRA, plasma renin activity; RAS, renin-angiotensin system; RPF, renal plasma flow; TF-WR, tubular free-water reabsorption; TGF-β, transforming growth factor beta; Uosm, urinary osmolality
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