Experimental diabetes and left ventricular hypertrophy: effects of beta-receptor blockade.

BACKGROUND: Left ventricular hypertrophy involves growth of cardiomyocytes, as well as remodeling of extracellular matrix proteins (ECMPs). Several metabolic abnormalities may be triggered secondary to hyperglycemia in diabetes. The effects of combined supravalvular aortic banding and diabetes mellitus on the rat heart were investigated in order to detect possible synergistic effects of these two conditions. Moreover, this study focused on the impact of beta-adrenoceptor blockade with carvedilol (C) on the expression of ECMPs. METHODS: Sixty male Wistar rats were allocated to six groups: control (CON), CON+C, streptozotocin (65 mg/kg iv)-induced diabetes (D), D+C, aortic stenosis (AS)+D and AS+D+C. Follow-up was 6 weeks. RESULTS: Relative left ventricular weight was elevated and body weight was decreased in D, AS+D and AS+D+C rats (P<.05 vs. CON). Diabetes elevated cardiomyocyte widths, perivascular/interstitial fibrosis (P<.01 each), as well as ECMPs: collagen I/fibronectin/laminin were 3.4-fold/4.1-fold/1.5-fold elevated in D rats and further increased (4.6-fold/5.9-fold/1.9-fold) in AS+D rats (P<.01 vs. CON). Heart rate and blood pressure decreased in D and AS+D rats (P<.05 vs. CON). Carvedilol application attenuated the overexpression of ECMPs. CONCLUSIONS: Beta-adrenoceptor blockade results in regression of the hypertrophic phenotype and in decrease of ECMP in rats with experimental diabetes and in animals with combined chronic pressure overload and hyperglycemia. These results represent a new mechanism of carvedilol that may contribute to the observed beneficial effects in heart failure.

Effects of aortic stenosis on renal renin, angiotensin receptor, endothelin and NOS gene expression in rats.

BACKGROUND/AIMS: Published data regarding the effects of common cardiovascular diseases, i.e. aortic stenosis on renal regulation of major vasoconstrictive (renin, endothelins) and vasodilatory systems (NO) are controversial. Therefore we aimed to evaluate the effects of chronic aortic stenosis on the renal renin-angiotensin, endothelin and NO systems. METHODS: Experimental supravalvular aortic stenosis was induced by using silver clips with a 0.6 mm internal diameter on the ascending aorta of weanling rats. Renal endothelin-1 (ET-1), endothelin-3 (ET-3), renin, AT(1a), AT(1b), eNOS, and bNOS gene expression were assessed by RNase protection assay. RESULTS: Renal renin gene expression increased twofold in rats with aortic stenosis. In contrast, renal ET-1, ET-3, eNOS, bNOS, and AT(1a), AT(1b) gene expression were unchanged in rats with aortic stenosis. CONCLUSION: Our study demonstrates that in rats with severe experimental supravalvular aortic stenosis only renal renin gene expression is stimulated. This contrasts with severe heart failure where endothelins and NO synthases are also upregulated. Different patterns of regulation of renal vasoactive mediators may be of importance for the extent of the renal impairment associated with aortic stenosis, and may be correlated with the severity of congestive heart failure.