ANG II-induced cardiac molecular and cellular events: role of aldosterone

doi:10.1152/ajpheart.01307.2005

ANG II-induced cardiac molecular and cellular events: role of aldosterone

Wenyuan Zhao,¹ Robert A. Ahokas,² Karl T. Weber,¹ and Yao Sun¹

Division of Cardiovascular Diseases, Departments of ¹Medicine and ²Obstetrics and Genecology, University of Tennessee, Health Science Center, Memphis, Tennessee

Submitted 13 December 2005 ; accepted in final form 17 February 2006

Chronic elevation of circulating ANG II is associated with cardiacremodeling in patients with hypertension and heart failure.The underlying mechanisms, however, are not completely defined.Herein, we studied ANG II-induced molecular and cellular eventsin the rat heart as well as their links to the redox state.We also addressed the potential contribution of aldosterone(ALDO) on ANG II-induced cardiac remodeling. In ANG II-treatedrats, and compared with controls, we found: 1) the expressionof proinflammatory/profibrogenic mediators was significantlyincreased in the perivascular space and at the sites of microscopicinjury in both ventricles; 2) macrophages and myofibroblastswere primary repairing cells at these sites, together with increasedfibrillar collagen volume; 3) apoptotic macrophages and myofibroblastswere evident at the same sites; 4) NADPH oxidase (gp91^phox)was significantly enhanced at these regions and primarily expressedby macrophages, whereas superoxide dismutase and catalase levelsremained unchanged; 5) plasma 8-isoprostane levels were significantlyincreased; and 6) blood pressure was significantly elevated.Losartan treatment completely prevented cardiac oxidative stressas well as molecular/cellular responses and normalized bloodpressure. Spironolactone treatment partially suppressed thecardiac inflammatory/fibrogenic responses and redox state. Thuschronic elevation of circulating ANG II is accompanied by aproinflammatory/profibrogenic phenotype involving vascular andmyocardial remodeling in both ventricles. Enhanced reactiveoxygen species production at these sites and increased plasma8-isoprostane indicate the involvement of oxidative stress inANG II-induced cardiac injury. ALDO contributes, in part, toANG II-induced cardiac molecular and cellular responses.

cardiac remodeling; angiotensin II; aldosterone; oxidative stress; rats

Address for reprint requests and other correspondence: Y. Sun, Division of Cardiovascular Diseases, Dept. of Medicine, Univ. of Tennessee, Health Science Center, 956 Court Ave., Rm B310, Memphis, TN 38163 (e-mail: yasun{at}utmem.edu)

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