Canine neonatally induced coarctation hypertension in the second year. Variably hyperresponsive plasma renin activity

Effect of mechanical loading on vascular alpha 1D- and alpha 1B-adrenergic receptor expression

Heterogeneous distribution and function of alpha 1-adrenergic receptor subtypes on arterial and venous vessels, together with evidence for altered alpha-adrenergic receptor expression in hypertension, led us to examine whether mechanical load influences expression of alpha 1B- and alpha 1D-adrenergic receptors in rat aortic smooth muscle cells (SMCs). We used RNase protection and radioligand binding assays to measure mRNA and alpha 1-adrenergic receptor density. In the first model, SMCs were subjected to phasic loading using flexible culture plates. As a positive control for the load stimulus, postconfluent, quiescent passage 5 cells demonstrated the expected load-dependent morphological realignment. However, no changes were detected in expression of either alpha 1D- or alpha 1B-adrenergic receptor mRNAs or receptor density after 24 to 48 hours of loading. beta-Actin and SMC-specific alpha-actin mRNA, as well as cell number and per-cell total RNA and protein, were also unaffected. In a second model, intact thoracic aortas, in either the presence or absence of endothelial cells, were cultured for 48 hours under tonic load. Like cultured cells, 48 hours of load did not affect SMC expression of alpha 1-adrenergic receptor mRNAs. We used suprarenal aortic coarctation to examine effects of increased pressure in vivo. As with the previous in vitro and in situ models, hypertension (30 days) had no effect on expression of alpha 1B- and alpha 1D-adrenergic receptor mRNAs in the suprarenal aorta compared with sham coarctation. To separate pressure per se from humoral influences, we also measured mRNAs in the subrenal, normotensive aorta, alpha 1B mRNA levels decreased to 68 +/- 14% of sham-coarcted controls in subrenal aorta exposed to normal blood pressure but also to systemic humoral changes induced by coarctation. As a positive control for a load effect, SMC-specific alpha-actin mRNA increased for loaded aorta in organ culture and in hypertensive aorta in vivo, whereas expression of beta-actin mRNA was unaffected. These results from cell culture, organ culture, and in vivo models suggest that pressure (load) alone has no effect on alpha 1B- and alpha 1D-adrenergic receptor expression. In coarctation hypertension, smooth muscle protected from the hypertension showed a decline in alpha 1B mRNA that may be due to a humoral factor or factors.

Chronic MK421 fails to modify evolution of hypertension in neonatally coarcted pups

In inbred dogs with neonatally induced coarctation hypertension, prior serial studies during the first year after aortic banding showed extracellular volume excess with normal plasma renin activity (PRA). The present studies test the hypothesis that slowly evolving aortic constriction in this model will yield intrarenal angiotensin II excess, peripherally undetectable, with continuous slightly positive sodium balance, and thus that chronic blockade of angiotensin II formation will prevent generation of hypertension. Accordingly, we used MK421 (enalapril, 3 mg/kg twice daily), a long-acting angiotensin converting enzyme inhibitor, or placebo, administered orally, from the time of banding through 4 months after banding in sex-matched littermates randomly assigned to one of four groups: coarcted/MK421; control/MK421; coarcted/placebo; control/placebo. Results indicate that MK421 caused identical lowering of absolute forelimb systolic blood pressure in coarcted and control pups but failed to modify evolution of a significant (p less than 0.005) systolic blood pressure difference in coarcted versus control dogs. Thus, neither temporal course nor final magnitude of relative hypertension was altered by MK421. Efficacy of MK421 was documented by 83% inhibition of the pressor response to angiotensin I at nadir of drug effect and by sustained increases in angiotensin I and renin concentration throughout the period of study. Coarcted and control pups responded similarly to MK421 for all measured variables. Glomerular filtration rate and extracellular volume (measured by [14C]inulin disappearance) did not differ among groups. Thus, chronic administration of MK421 failed to prevent hypertension and did not impair maintenance of normal renal function in the evolving phase of neonatally induced coarctation hypertension. We conclude that, although angiotensin II may participate in the untreated model, it does not appear essential to generation of hypertension. We propose that the renal pressure-natriuresis mechanism regulates distal pressure, that stenosis-related resistance independently determines the proximal-distal difference, and that chronic converting enzyme inhibition lowers the set point of the former without influencing stenosis evolution, thus secondarily lowering proximal pressure by an equal degree.

Overall hemodynamic pattern in coarctation of the abdominal aorta in conscious rats

This study was designed to examine the total body hemodynamics of abdominal aortic coarctation hypertension. The study quantitates both regional and organ blood flow and resistance in conscious rats both above and below an experimentally produced coarctation. The experimental group consisted of 10 male Sprague-Dawley rats with a mean pressure gradient of 68 mm Hg across the coarctation. This experimental group was compared with a group of eight control rats with no pressure gradient. Flow measurements were made with radioactively labeled microspheres 4 weeks after aortic constriction. This aortic coarctation produced an increase in cardiac index (22%) and total peripheral resistance (19%). Blood flow through tissues proximal to the coarctation was not different from control; vascular resistance was increased (31%). Flow through the tissues distal to the coarctation was increased (16%); vascular resistance was decreased (-22%). The upper carcass, diaphragm, and brain were the tissues most representative of flow above the coarctation, and the lower carcass and large intestine were the tissues most representative of flow below the coarctation. Coarctation of the aorta produced cardiac hypertrophy and increased microsphere shunting to the lungs.