Gosnell B A, Morley J E, Levine A S
Brain Res. 1986 Mar 26;369(1-2):177-84. doi: 10.1016/0006-8993(86)90526-3.
These experiments were designed to identify brain sites at which opioids might act to influence ingestive behavior and to determine which opioid receptor types are involved. After food deprivation, rats were given microinjections of naloxone into several brain regions and food intake was measured. Injections into or near the paraventricular (PVN) or ventromedial (VMH) hypothalamic nuclei or the globus pallidus (GP) reduced food intake; injections into the striatum or lateral hypothalamus (LH) were ineffective. A second study examined the ingestive effects of roughly equimolar doses (1.43-1.75 nmol) of dynorphin A (DYN), beta-endorphin (beta-END), and D-Ala2,D-Leu5-enkephalin (DADLE) when injected into 4 different brain regions. Only DYN significantly increased food intake, and this effect was seen only with injections into the PVN and VMH. Beta-END stimulated water intake when injected into the PVN, VMH and GP but not the LH. Further studies indicated that with PVN injections, DYN was effective at a dose as low as 0.47 nmol, and that a higher dose of DADLE (4.39 nmol) did stimulate food intake. These studies support an important role for dynorphin and the kappa opioid receptor in the regulation of feeding and suggest that the opioid regulation of food and water intake can be differentiated both by sites of action and by effective agonists.
这些实验旨在确定阿片类物质可能作用于影响摄食行为的脑区,并确定涉及哪些阿片受体类型。在食物剥夺后,给大鼠在几个脑区微量注射纳洛酮,并测量食物摄入量。向室旁核(PVN)或腹内侧下丘脑核(VMH)或苍白球(GP)内或其附近注射可减少食物摄入量;向纹状体或外侧下丘脑(LH)注射则无效。第二项研究考察了将大致等摩尔剂量(1.43 - 1.75纳摩尔)的强啡肽A(DYN)、β-内啡肽(β-END)和D-丙氨酸2,D-亮氨酸5-脑啡肽(DADLE)注射到4个不同脑区时的摄食效应。只有DYN显著增加食物摄入量,且仅在注射到PVN和VMH时才出现这种效应。β-END注射到PVN、VMH和GP时刺激水的摄入,但注射到LH时则无此作用。进一步研究表明,在PVN注射时,DYN低至0.47纳摩尔的剂量就有效,且较高剂量的DADLE(4.39纳摩尔)确实能刺激食物摄入。这些研究支持强啡肽和κ阿片受体在进食调节中起重要作用,并表明阿片类物质对食物和水摄入的调节可通过作用部位和有效激动剂加以区分。
