Broqua P, Wettstein J G, Rocher M N, Gauthier-Martin B, Riviere P J, Junien J L, Dahl S G
Department of Pharmacology, Institut de Recherche Jouveinal, Fresnes, France.
Brain Res. 1996 Jun 10;724(1):25-32. doi: 10.1016/0006-8993(96)00262-4.
This study compares the antinociceptive and orexigenic activities of NPY and analogs after intracerebroventricular administration in mice. NPY had an antinociceptive action in the mouse writhing test which was not affected by prior treatment with naltrexone, yohimbine, idazoxan or reserpine. A detailed examination revealed that NPY (0.023-0.7 nmol), PYY (0.007-0.07 nmol), NPY2-36 (0.023-0.23 nmol) and the Y1 agonist [Leu31, Pro34]-NPY (0.07-0.7 nmol) all produced a dose-dependent and complete suppression of acetic acid-induced writhing. In contrast, the Y2 agonist, NPY13-36, had little or no antinociceptive effect. As shown by their ED50 values, the relative potency of the peptides was PYY > NPY2-36 > or = NPY > [Leu31, Pro34]-NPY > > NPY13-36, suggesting that a Y1 rather than a Y2 or Y3 receptor subtype was implicated in the antinociceptive action. Thereafter, all peptides were assessed for their effects on food intake. With respect to dose and peptide specificity, the hyperphagic effects of NPY and related peptides paralleled those on nociception, suggesting a common receptor mechanism. However, a purported NPY antagonist, [D-Trp32]-NPY, attenuated NPY's effect on feeding yet this same peptide elicited a dose-dependent inhibition of acetic acid-induced writhing, suggesting some molecular distinction between antinociception and stimulation of food intake.
本研究比较了脑室注射后神经肽Y(NPY)及其类似物在小鼠体内的抗伤害感受和促食欲活性。在小鼠扭体试验中,NPY具有抗伤害感受作用,且该作用不受纳曲酮、育亨宾、伊达唑新或利血平预处理的影响。详细检查发现,NPY(0.023 - 0.7纳摩尔)、肽YY(PYY,0.007 - 0.07纳摩尔)、NPY2 - 36(0.023 - 0.23纳摩尔)和Y1激动剂[亮氨酸31,脯氨酸34] - NPY(0.07 - 0.7纳摩尔)均产生剂量依赖性且能完全抑制醋酸诱导的扭体反应。相比之下,Y2激动剂NPY13 - 36几乎没有抗伤害感受作用。从它们的半数有效剂量(ED50)值来看,这些肽的相对效力为PYY > NPY2 - 36 > 或 = NPY > [亮氨酸31,脯氨酸34] - NPY > > NPY13 - 36,这表明抗伤害感受作用涉及的是Y1而非Y2或Y3受体亚型。此后,评估了所有肽对食物摄入量的影响。就剂量和肽的特异性而言,NPY及相关肽的摄食亢进作用与它们对伤害感受的作用相似,提示存在共同的受体机制。然而,一种所谓的NPY拮抗剂[D - 色氨酸32] - NPY减弱了NPY对摄食的作用,但同一肽却能剂量依赖性地抑制醋酸诱导的扭体反应,这表明抗伤害感受和刺激食物摄入之间存在一些分子差异。
