We studied the effects of a novel organic nitric oxide (NO) donor, 4-hydroxymethyl-furazan-3-carboxylic acid-2-oxide (CAS-1609), in a rat carotid artery intimal injury model. The NO donor, CAS-1609, or its non-NO-donating control compound, 4-hydroxymethyl-furazan-3-carboxylic acid (C-93-4845), was infused intravenously at 30 micrograms/day. Seven days after injury, carotid artery rings contracted only 56 +/- 6 mg to NG-nitro-L-arginine methyl ester in C-93-4845-treated rats, compared with 120 +/- 17 mg in CAS-1609-treated rats (P < 0.02), indicating a preservation of endogenous NO release. Improved responses to the endothelium-dependent dilator, acetylcholine, also occurred in injured arteries treated with CAS-1609. Morphometric analysis of injured carotid arteries given the inactive compound showed marked intimal thickening with an intimal-to-medial ratio (I/M) of 0.76 +/- 0.02, compared with a significantly lower I/M of 0.32 +/- 0.04 (P < 0.01) in injured carotid arteries given CAS-1609. Additionally, CAS-1609 was found to have a concentration-dependent stimulatory effect on cultured rat aortic endothelial cell proliferation (P < 0.01) but and inhibitory effect on platelet-derived growth factor-BB (10 ng/ml)-stimulated rat aortic smooth muscle cell proliferation (P < 0.01). This is the first study to demonstrate that NO plays a dual role in vascular cell proliferation, stimulating endothelial cells but inhibiting smooth muscle cell proliferation. This dual effect of NO on cell proliferation is associated with an in vivo reduction in neointimal thickening and an acceleration of endothelial recovery determined by both anatomic and functional methods.
We determined the effects of time, type of anesthesia, and myocardial infarction on loss of radioactive microspheres averaging 9 or 15 micrometers diameter from left ventricular myocardium. The principle used to compute losses was comparison of the number of microspheres injected directly into coronary arteries to the numbers remaining in myocardium, appearing within 2-4 min in the coronary sinus, or trapped in the lungs. Losses of 9-micrometers microspheres within 2 min of injection were significantly greater for halothane (mean 6.3%) than nitrous oxide anesthesia (mean 3.3%), and in the next 2 h increased to 11.7 and 7.9%, respectively. Over 5 wk in conscious dogs losses were as high as 40 and 11% for 9 and 15 micrometers microspheres, respectively. Losses were not greater for infarcted than normal muscle, and negligible radioactivity appeared in paracardiac lymph nodes. Microspheres leaving the heart were almost all below 10.3 micrometers diameter, so that microspheres with diameters 10-14 (mean 12) micrometers might be the best size to use for myocardial studies.
The present study was performed to determine the immediate (hours) and long-term (28-day) effects of angioplasty-balloon dilatation on arterial wall diameter, histology, response to vasoconstrictors, and passive mechanics. Dilated left iliac arteries of New Zealand rabbits were compared to control, right iliac arteries. In the immediate studies, dilation increased arteriographic diameter by 32%, denuded the endothelium, stretched and may have lysed smooth muscle cells, decreased arterial wall thickness, and increased passive stress and incremental elastic modulus. The dilated arteries failed to contract to norepinephrine or potassium chloride. In contrast, 28 days after dilation, arteriographic diameter had returned to normal, an intimal thickening had formed, passive stress and the incremental elastic modulus had decreased to below normal, and the arteries contracted, but to only 53% to 67% of control. Angioplasty had no long-term effect on arterial sensitivity (EC50) to potassium chloride or serotonin but did produce a decreased sensitivity (6X) to norepinephrine. These studies demonstrate that the effects of dilatation of the normal artery are partially reversible, suggest that restenosis after angioplasty is more likely to be due to intimal proliferation than increased arterial stiffness, and suggest that vasospasm of arteries after long-term recovery from the dilation is more likely to be mediated by serotonin than by norepinephrine.
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