Sympathetic Vasoconstriction Is Potentiated in Arteries Caudal but Not Rostral to a Spinal Cord Transection in Rats

Sympathetic nerve-mediated contractions of mesenteric and tail arteries controlled by preganglionic neurones decentralized by a spinal cord injury (SCI) are potentiated, and likely contribute to autonomic dysreflexia. However, reactivity to the alpha(1)-adrenoceptor agonist phenylephrine has been reported to be enhanced in vascular beds controlled by preganglionic neurones lying both rostral and caudal to an SCI in vivo. Here responses of isometrically-mounted median and saphenous arteries isolated from rats 2 and 8 weeks after transection of the T4 spinal cord have been compared with those from sham-operated rats. After SCI, contractions of median arteries to perivascular nerve stimulation, to a-adrenoceptor agonists (phenylephrine and clonidine), to the P2X-purinoceptor agonist alpha,beta-methylene ATP, and to 60mM K(+) were unchanged. Blockade of nerve-evoked contractions by a-adrenoceptor antagonists (prazosin and idazoxan) was not affected by SCI in either the median or saphenous arteries. In contrast, at 2 and 8 weeks after SCI, nerve-evoked contractions of saphenous arteries were potentiated. Saphenous arteries were less sensitive to phenylephrine 8 weeks after SCI, and their contractions to 60mM K(+) were reduced. However, the sensitivity of saphenous arteries to clonidine was unchanged by SCI. Eight weeks after SCI, the reactivity of saphenous arteries to alpha,beta-methylene ATP was unchanged, but the P2-antagonist suramin produced more blockade of nerve-evoked contractions. These findings demonstrate that neurovascular transmission is enhanced in arteries located caudal, but not rostral, to a spinal transection. In the saphenous artery, the most likely explanation seems to be an increase in neurotransmitter release, as may occur in other inactive sympathetic pathways caudal to the lesion.