Characterization of a potent agonist of the insect octopamine-receptor-coupled adenylate cyclase

Nailah Orr , Gregory L. Orr , Robert M. Hollingworth
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引用次数: 17

Abstract

The imidazoline, 2,3-xylylaminomethyl-2′-imidazoline (XAMI) was evaluated for its effects on octopamine-sensitive adenylate cyclase (OSAC) in crude membrane preparations of neural and non-neural tissues of the American cockroach, Periplaneta americana and ventral-nerve cord homogenates of the tobacco hornworm, Manduca sexta. In the cockroach nerve cord, XAMI was found to be a partial agonist with a Vmax 80% of p-octopamine (OA) and a Ka of 30 nM. The affinity is 185 times greater than that of OA. Additivity studies suggest that at maximally stimulating concentrations, XAMI interacts primarily with the OSAC. The antagonist profile for XAMI mimics that of OA with mianserin being the best antagonist, followed by the α-adrenergic antagonist phentolamine. These antagonists were shown to act competitively at the XAMI-binding site. β-adrenergic and dopaminergic antagonists were ineffective. These data indicate that XAMI has the highest reported affinity of any OA-receptor agonist and may be a suitable ligand for studies of the OA receptor.

昆虫八胺受体偶联腺苷酸环化酶的强效激动剂的表征
研究了咪唑啉2,3- xylylaminome甲基-2 ' -咪唑啉(XAMI)对美洲大蠊神经组织和非神经组织粗膜制剂中八胺敏感腺苷酸环化酶(OSAC)的影响。在蟑螂神经索中,XAMI是一种局部激动剂,Vmax为对章鱼胺(OA)的80%,Ka为30 nM。亲和力是OA的185倍。可加性研究表明,在最大刺激浓度下,XAMI主要与OSAC相互作用。XAMI的拮抗剂与OA相似,米安色林是最佳拮抗剂,其次是α-肾上腺素能拮抗剂酚妥拉明。这些拮抗剂被证明在xami结合位点具有竞争性。β-肾上腺素能和多巴胺能拮抗剂无效。这些数据表明,在所有OA受体激动剂中,XAMI具有最高的亲和力,可能是OA受体研究的合适配体。
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