Abou-Khalil B, Young A B, Penney J B
Brain Res. 1984 Dec 3;323(1):21-9. doi: 10.1016/0006-8993(84)90261-0.
Using quantitative receptor autoradiography, [3H]D-Ala-D-Leu-enkephalin (DADL) and [3H]naloxone binding were studied in rat striatum and striatal projection areas (globus pallidus (GP) and substantia nigra pars reticulata (SNr] after unilateral striatal kainic acid lesions. [3H]DADL and [3H]naloxone binding were each examined by two methods. Initially, [3H]DADL binding was performed in 50 mM Tris-HCl (pH 7.4), 30 mM NaCl, 3 mM manganese acetate and 2 microM GTP; [3H]naloxone binding was carried out in 50 mM Tris-HCl (pH 7.4) and 100 mM NaCl. Subsequent studies were carried out in 150 mM Tris-HCl (pH 7.4) and either [3H]DADL plus 500 nM morphiceptin (to block [3H]DADL binding to mu receptors) or [3H]naloxone plus 10 nM delta receptor peptide (to block [3H]naloxone binding to delta receptors). At one and eight weeks in the lesioned striatum, [3H]DADL binding was reduced by 70% and 82%, respectively, when compared to the control side. [3H]Naloxone binding was reduced by 35% and 20%. In GP and SNr, [3H]DADL binding was reduced by 31% and 41%, respectively, at one week and 27% and 26% at eight weeks. [3H]Naloxone binding was reduced 19% in GP at eight weeks. A parsimonious explanation of these results is that opiate binding sites are located on presynaptic terminals of striatal efferent fibers to globus pallidus and substantia nigra pars reticulata as well as on local striatal axon collaterals. Since opiate peptides have recently been found to coexist with GABA in some striatal neurons, opiate peptides may play a role in striatal function by controlling GABA release from striatal efferent fibers. It is possible that pallidal and nigral opiate binding could be utilized as a marker for striatal terminals.
运用定量受体放射自显影技术,在单侧纹状体注射 kainic 酸损伤后的大鼠纹状体及其投射区域(苍白球(GP)和黑质网状部(SNr))中,研究了[3H]D - 丙氨酸 - D - 亮氨酸 - 脑啡肽(DADL)和[3H]纳洛酮结合情况。[3H]DADL 和[3H]纳洛酮结合分别通过两种方法检测。最初,[3H]DADL 结合在 50 mM Tris - HCl(pH 7.4)、30 mM NaCl、3 mM 醋酸锰和 2 μM GTP 中进行;[3H]纳洛酮结合在 50 mM Tris - HCl(pH 7.4)和 100 mM NaCl 中进行。后续研究在 150 mM Tris - HCl(pH 7.4)中进行,对于[3H]DADL 结合,加入 500 nM 吗啡肽(以阻断[3H]DADL 与 μ 受体结合),对于[3H]纳洛酮结合,加入 10 nM δ 受体肽(以阻断[3H]纳洛酮与 δ 受体结合)。在损伤纹状体的 1 周和 8 周时,与对照侧相比,[3H]DADL 结合分别减少了 70%和 82%。[3H]纳洛酮结合分别减少了 35%和 20%。在 GP 和 SNr 中,[3H]DADL 结合在 1 周时分别减少了 31%和 41%,在 8 周时分别减少了 27%和 26%。在 8 周时,GP 中[3H]纳洛酮结合减少了 19%。对这些结果的一种简洁解释是,阿片类结合位点位于纹状体传出纤维至苍白球和黑质网状部的突触前终末以及局部纹状体轴突侧支上。由于最近发现阿片肽在一些纹状体神经元中与 GABA 共存,阿片肽可能通过控制纹状体传出纤维释放 GABA 在纹状体功能中发挥作用。苍白球和黑质的阿片类结合有可能被用作纹状体终末的标志物。
