Sympathetic Modulation of Nitrergic Neurogenic Vasodilation in Cerebral Arteries
スポンサーリンク
概要
- 論文の詳細を見る
The presence of close apposition between the adrenergic and the non-adrenergic or nitrergic nerve terminals in large cerebral arteries in several species is well documented. The axo-axonal distance between these different types of nerve terminals is substantially closer than the synaptic distance between the adventitial nerve terminals and the outermost layer of smooth muscle in the media. This feature suggests that a functional axo-axonal interaction between nerve terminals is more likely to occur than that between the nerve and muscle. Thus, transmitters released from one nerve terminal may modulate release of transmitters from the neighboring nerve terminals, resulting in a neurogenic response. We have reported that nicotine-induced nitric oxide (NO)-mediated neurogenic vasodilation is dependent on intact sympathetic innervation in porcine and cat cerebral arteries. Evidence also has been presented to indicate that nicotine acts on α7-nicotinic receptors located on sympathetic nerve terminals, resulting in release of norepinephrine which then diffuses to act on β2-adrenoceptos located on the neighboring nitrergic nerve terminals to release NO and therefore vasodilation. The predominant facilitatory effect of β2-adrenoceptors in releasing NO is compromised by presynaptic α2-adrenoceptors located on the same nerves. Activation of cerebral sympathetic nerves may cause NO-mediated dilation in large cerebral arteries at the base of the brain.
- 社団法人 日本薬理学会の論文
- 2002-01-01
著者
-
Lee Tony
Department Of Information Engineering Chinese University Of Hong Kong
-
J. F.
Department Of Pharmacology Southern Illinois University School Of Medicine
関連論文
- Concept of Backlog Balancing and Its Application to Flow Control and Congestion Control in High-Speed Networks
- Sympathetic Modulation of Nitrergic Neurogenic Vasodilation in Cerebral Arteries
- Role of endothelial cells in responses of spontaneously hypertensive rat mesenteric arteries to norepinephrine and angiotensins.