The lateral saphenous vein of the dog and the rabbit ear artery were surgically denervated, by clamping the vessel or by removal of the superior cervical ganglion, respectively. Both procedures resulted in denervation of the vessels. The denervated, lateral saphenous vein was supersensitive to exogenous noradrenaline and inactivation of the amine (in oil immersion experiments) was slower in denervated vein strips than in control strips treated with cocaine. Incubation experiments with 3H-noradrenaline confirmed that denervated strips formed considerably fewer metabolites than control ones (in the absence or presence of cocaine) and that O-methylation of noradrenaline was reduced by about 50%. When the strips were incubated with 3H-isoprenaline, the denervated ones accumulated and metabolized isoprenaline to a lesser degree than control strips. Hydrocortisone did not reduce the accumulation of isoprenaline in the denervated vein and had only minor effects on O-methylation. The metabolism of noradrenaline and isoprenaline gradually recovered with time. In the ear artery, denervation was accompanied by a marked reduction in O-methylation, but not in accumulation, of isoprenaline. In both vessels there was a highly significant positive correlation between noradrenaline content and O-methylating capacity; in the saphenous vein accumulation of isoprenaline was also positively correlated to noradrenaline content. Morphological changes observed in the denervated vessels consisted essentially in dedifferentiation of smooth muscle cells (which attained larger dimensions, had an indented, large nucleus, augmented euchromatin and an increased amount of ribosomes), abundance of extracellular material and fibroblasts.(ABSTRACT TRUNCATED AT 250 WORDS)
The uptake and metabolism of 3H-5-hydroxytryptamine (5-HT) in the isolated saphenous vein of the dog was studied, as well as the sensitivity to 5-HT and its termination of action (as determined by oil immersion experiments). After exposure of the vein to 0.23 mumol/1 5-HT for 30 min, about one half of the 5-HT removed was accumulated in the tissue, the other half appearing in the form of metabolites. Cocaine, chlorimipramine or denervation reduced the accumulation, but not the metabolism, of 5-HT; hydrocortisone reduced both accumulation and metabolism. Hydrocortisone plus cocaine (or phenoxybenzamine alone) caused a greater reduction of accumulation and metabolism than hydrocortisone or cocaine alone. Pargyline caused an increase in accumulation and virtually abolished metabolism; amezinium also abolished metabolism, but reduced accumulation (the same effects as caused by cocaine plus pargyline). Cocaine (12 mumol/l) caused supersensitivity to 5-HT and a prolongation of the half-time for relaxation in oil; hydrocortisone (40 mumol/l) had no effect on sensitivity, but prolonged somewhat the half-time for relaxation in oil, showing supra-additive effects with cocaine. 5-HT, taken up into adrenergic nerve terminals, was released by electrical stimulation; no appreciable reduction in fractional release occurred during repeated stimulations. Exposure to cocaine prior to incubation with 5-HT prevented the neuronal uptake of 5-HT. Compartmental analysis, done with the help of washout curves of strips pretreated with pargyline and loaded with 3H-5-HT, shows that 3H-5-HT distributed into 3 compartments plus a bound fraction.(ABSTRACT TRUNCATED AT 250 WORDS)
1 The effects of continuous intravenous infusion of noradrenaline (0.01 and 0.1 ,ugkg-1 h-1) were studied in both the infused lateral saphenous vein and the contralateral saphenous vein of normal dogs. Noradrenaline, saline, noradrenaline + desipramine or noradrenaline + superoxide dismutase were infused using Alzet osmotic minipumps. 2 After a 5 day infusion period, the noradrenaline content in plasma and in both saphenous veins was determined, and the venous tissues submitted to light microscope morphometry and ultrastructural study and used for the determination of their O-methylation capacity (with [3H]-isoprenaline as a substrate). 3 Noradrenaline caused dose-dependent damage to the sympathetic nerve endings of the lateral saphenous veins. Concomitant changes in extraneuronal structure and function were observed (hypertrophy of smooth muscle cells, nuclear dismorphy, thickening of the vessel wall, impairment in O-methylation capacity). 4 Desipramine and superoxide dismutase prevented or reduced the effects of noradrenaline on both the morphological and the biochemical parameters; the protection afforded by superoxide dismutase was more marked than that by desipramine. 5 It is concluded that moderately high doses of noradrenaline exert a 6-hydroxydopamine-like effect and that this chemical sympathectomy is partially or totally prevented by desipramine or superoxide dismutase. The data suggest that a substance derived from noradrenaline, in the formation of which free oxygen radicals are involved and which is subject to neuronal uptake, is the chemical entity responsible for the neurotoxic effect observed.
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