ANGIOTENSIN II INDUCES UCP1 IN ADIPOSE TISSUE OF AN EXPERIMENTAL MODEL OF CARDIO-RENAL CACHEXIA

Abstract

Objective: Cachexia is a severe complication of advanced heart failure and chronic kidney disease. We previously reported that high dose Angiotensin II infusion in rats determined body weight reduction, prevented by an AT-1 receptor blocker treatment and beta-adrenergic non selective antagonism. The possible role of Ang II on UCP1 in white and brown adipose tissue, as a possible mechanism, was investigated in this study. Design and method: Male Sprague-Dawley rats, were implanted subcutaneously in the dorsal region with osmotic minipumps delivering Ang-II at high doses (525 ng/Kg/min) for 12 days to mimic heart failure and the development of cachexia. Five concurrent groups of rats were evaluated: 1) vehicle–infused rats (CTR-rat, n = 9); 2) Ang-II infused rats (n = 7); Ang- II rats receiving by oral gavage 2 days before minipump implantation until the 12th day of Ang-II infusion, either 3) bisoprolol (BIS,β1-adrenergic antagonist, 35 mg/Kg/day, n = 5), or 4) carvedilol (CVD,α1-non-selective-β1,2,3-adrenergic blocker, 90 mg/kg/day, n = 5) or 5) bupranolol (BPR,β3-antagonist, 200 mg/day/kg, n = 4). White adipose tissue (WATs) from retroperitoneal (RWAT), epidydimal (EWAT), dorsal (DWAT) and brown interscapular (IBAT) depot were withdrawn in order to determine UCP1 mRNA expression, norepinephrine tissue level (TNE) and tyrosine hydroxylase activity (THA) Results: THA and TNE were higher in Ang-II infused rats in all the white adipose tissue depots analyzed. CVD prevented TNE increase in all WATs, while BPR and BIS were effective in RWAT and EWAT but not DWAT. All the three beta adrenergic blocker treatments significantly reduced THA increased activity related to Ang-II infusion in all the WATs. UCP1 mRNA was increased in IBAT (+39%, p < 0.05) of Ang II-infused rat, significantly prevented by CVD and BPR but not by BIS. UCP1 was also increased in all the three WATs of Ang-II infused rats, with all the three beta blockers able to reduce the effect in RWAT and DWAT. No effect of beta-blockers treatment was observed in EWAT. Conclusions: High dose angiotensin II infusion determined an increase in UCP1 trascription in brown and white adipose tissue in rats. CVD and BPR were able to prevent UCP1 increase in brown and white adipose tissue more than beta-1 selective antagonist BIS.