Co-localization and Natriuretic Interdependence of Angiotensin AT2R and MasR in Obese Rat Kidney

The actions of angiotensin II type 2 receptor (AT 2 R) and receptor mas (MasR) are complex but show similar pro-natriuretic function; particularly AT 2 R expression and natriuretic function are enhanced in obese/diabetic rat kidney. In light of previous reports, we tested hypothesis that AT 2 R and MasR are interdependent to produce natriuresis in obese rats due to potential physical interaction. Infusion of AT 2 R agonist C21 (5 μg/kg/min) in obese Zucker rats (OZR) caused diuresis/natriuresis which were attenuated by simultaneous infusion of the AT 2 R antagonist PD123319 (50 μg/kg/min) or the MasR antagonist A-779 (50 μg/kg/min). Similarly, infusion of MasR agonist Ang-(1-7) (110 fmol/kg/min) in OZR caused diuresis/netriuresis, which were attenuated by simultaneous infusion of A-779 or PD123319. Dual labeling of AT 2 R and MasR in OZR kidney slices revealed four-fold co-localization of AT 2 R and MasR (9.83 vs. 2.50 dual labeled cells/1600 μm 2 ) compared with lean rats in which AT 2 R is not natriuretic. Moreover, the AT 2 R co-immunoprecipitates with MasR in cortical homogenate of OZR. Immunoblotting of AT 2 R and MasR with zero length oxidative (sulfhydryl groups) cross-linker cupric-phenanthroline in OZR cortical homogenate revealed a shift of AT 2 R (~62 kDa) and MasR (~54 kDa) bands upward with overlapping migration for their complexes (~160 kDa and 245 kDa) which were sensitive to the reducing β-mercaptoethanol. Similar observations were made in HK-2 cells, where glucose (25 mM) treatment enhanced the crosslinking. Collectively, the study reveals AT2R and MasR are co-localized and functionally interdependent in producing natriuretic response. Hyperglycemic oxidative stress affecting sulfhydryl groups present a potential mechanism of such physical interaction between these receptors. (Support: R01DK061578)