UNLABELLED: Apelin is a peptide that plays an important role in heart physiology and pathophysiology, inflammation, and angiogenesis. We evaluated whether the endogenous apelin system is involved in the pathogenesis of the hepatic remodeling and cardiovascular and renal complications occurring in advanced liver disease. The circulating levels of apelin, the messenger RNA (mRNA) and protein expression of apelin and apelin receptor, the immunohistological detection of apelin and apelin receptor, and the effects induced by the chronic administration of an apelin receptor antagonist on fibrosis and vessel density were evaluated in rats with cirrhosis and ascites and in control rats. The serum levels of apelin in patients with cirrhosis were also measured. Apelin levels were higher in rats with cirrhosis than in controls. Apelin mRNA showed a four-fold rise only in hepatic tissue, but not in the lung, heart, or kidney of rats with cirrhosis. These animals also showed hepatic apelin receptor mRNA levels 300 times higher than controls. Apelin was highly expressed by stellate cells, whereas apelin receptor was overexpressed in the hepatic parenchyma of animals with cirrhosis. Rats with cirrhosis treated with the apelin receptor antagonist showed diminished hepatic fibrosis and vessel density, improved cardiovascular performance, and renal function and lost ascites. Human patients also showed a marked increase in apelin levels. CONCLUSION: The selective hepatic activation of the apelin system, together with the drop in fibrosis and neoangiogenesis and the improvement in cardiovascular and excretory function resulting from apelin receptor blockade, points to the hepatic apelin system as a novel therapeutic target in liver disease.
UNLABELLED: Apelin is a peptide that plays an important role in heart physiology and pathophysiology, inflammation, and angiogenesis. We evaluated whether the endogenous apelin system is involved in the pathogenesis of the hepatic remodeling and cardiovascular and renal complications occurring in advanced liver disease. The circulating levels of apelin, the messenger RNA (mRNA) and protein expression of apelin and apelin receptor, the immunohistological detection of apelin and apelin receptor, and the effects induced by the chronic administration of an apelin receptor antagonist on fibrosis and vessel density were evaluated in rats with cirrhosis and ascites and in control rats. The serum levels of apelin in patients with cirrhosis were also measured. Apelin levels were higher in rats with cirrhosis than in controls. Apelin mRNA showed a four-fold rise only in hepatic tissue, but not in the lung, heart, or kidney of rats with cirrhosis. These animals also showed hepatic apelin receptor mRNA levels 300 times higher than controls. Apelin was highly expressed by stellate cells, whereas apelin receptor was overexpressed in the hepatic parenchyma of animals with cirrhosis. Rats with cirrhosis treated with the apelin receptor antagonist showed diminished hepatic fibrosis and vessel density, improved cardiovascular performance, and renal function and lost ascites. Humanpatients also showed a marked increase in apelin levels. CONCLUSION: The selective hepatic activation of the apelin system, together with the drop in fibrosis and neoangiogenesis and the improvement in cardiovascular and excretory function resulting from apelin receptor blockade, points to the hepatic apelin system as a novel therapeutic target in liver disease.
Authors: Yvonne P de Visser; Frans J Walther; El Houari Laghmani; Arnoud van der Laarse; Gerry T M Wagenaar Journal: Am J Respir Crit Care Med Date: 2010-07-09 Impact factor: 21.405
Authors: Rahul Rai; Asish K Ghosh; Mesut Eren; Alexander R Mackie; Daniel C Levine; So-Youn Kim; Jonathan Cedernaes; Veronica Ramirez; Daniele Procissi; Layton H Smith; Teresa K Woodruff; Joseph Bass; Douglas E Vaughan Journal: Cell Rep Date: 2017-11-07 Impact factor: 9.423