Hemodynamic effects of urotensin II and its specific receptor antagonist palosuran in cirrhotic rats

Publication

Hemodynamic effects of urotensin II and its specific receptor antagonist palosuran in cirrhotic rats

Journal Paper/Review - Apr 26, 2008

Trebicka Jonel, Sauerbruch Tilman, Lammert Frank, Clemens Christoph, Biener Andrea, Fischer Nicolas, Eckhardt Andreas, Biecker Erwin, Hennenberg Martin, Leifeld Ludger, Heller Jörg

Citation

Trebicka J, Sauerbruch T, Lammert F, Clemens C, Biener A, Fischer N, Eckhardt A, Biecker E, Hennenberg M, Leifeld L, Heller J. Hemodynamic effects of urotensin II and its specific receptor antagonist palosuran in cirrhotic rats. Hepatology 2008; 47:1264-76.

Type

Journal Paper/Review (English)

Journal

Hepatology 2008; 47

Publication Date

Apr 26, 2008

Issn Electronic

1527-3350

Pages

1264-76

Brief description/objective

UNLABELLED
In cirrhosis, splanchnic vasodilation contributes to portal hypertension, subsequent renal sodium retention, and formation of ascites. Urotensin II(U-II) is a constrictor of large conductive vessels. Conversely, it relaxes mesenteric vessels, decreases glomerular filtration, and increases renal sodium retention. In patients with cirrhosis, U-II plasma levels are increased. Thus, we investigated hemodynamic and renal effects of U-II and its receptor antagonist, palosuran, in cirrhotic bile duct-ligated rats (BDL). In BDL and sham-operated rats, we studied acute effects of U-II (3 nmol/kg; intravenously) and palosuran (10 mg/kg; intravenously) and effects of oral administration of palosuran (30 mg/kg/day; 3 days) on hemodynamics and renal function. We localized U-II and U-II-receptor (UTR) in livers and portal veins by immunostaining. We determined U-II-plasma levels by enzyme-linked immunosorbent assay (ELISA), and mesenteric nitrite/nitrate-levels by Griess-reaction. RhoA/Rho-kinase and endothelial nitric oxide synthase (eNOS) pathways were determined by western blot analysis and reverse transcription polymerase chain reaction (RT-PCR) in mesenteric arteries. U-II plasma levels, as well as U-II and UTR-receptor expression in livers and portal veins of cirrhotic rats were significantly increased. U-II administration further augmented the increased portal pressure (PP) and decreased mean arterial pressure (MAP), whereas palosuran decreased PP without affecting MAP. The decrease in PP was associated with an increase in splanchnic vascular resistance. In mesenteric vessels, palosuran treatment up-regulated expression of RhoA and Rho-kinase, increased Rho-kinase-activity, and diminished nitric oxide (NO)/cyclic guanosine 3',5'-monophosphate (cGMP) signaling. Moreover, palosuran increased renal blood flow, sodium, and water excretion in BDL rats.

CONCLUSION
In BDL rats, U-II is a mediator of splanchnic vasodilation, portal hypertension and renal sodium retention. The U-II-receptor antagonist palosuran might represent a new therapeutic option in liver cirrhosis with portal hypertension.