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大鼠梨状前皮质和梨状后皮质中γ-氨基丁酸(GABA)和谷氨酸脱羧酶(GAD)免疫反应性神经元分布的差异。

Differences in the distribution of GABA- and GAD-immunoreactive neurons in the anterior and posterior piriform cortex of rats.

作者信息

Löscher W, Lehmann H, Ebert U

机构信息

Department of Pharmacology, Toxicology and Pharmacy, School of Veterinary Medicine, Bünteweg 17, D-30559 Hannover, Germany.

出版信息

Brain Res. 1998 Jul 27;800(1):21-31. doi: 10.1016/s0006-8993(98)00488-0.

Abstract

There is accumulating evidence of anterior-posterior differences in the susceptibility of the piriform cortex to seizure induction and to functional alterations in response to seizures elicited from other limbic brain regions, but the reasons for such differences along the anterior-posterior axis of the piriform cortex are not clear. In the present study, GABAergic neurons have been identified in the piriform cortex of the rat at light microscopic level by immunocytochemical localization of GABA and the GABA-synthesizing enzyme glutamic acid decarboxylase. A monoclonal antibody to GABA and, for comparison, polyclonal antibodies to GABA and glutamic acid decarboxylase were used for this purpose. In both anterior and posterior piriform cortex, the highest number and density of GABA-immunoreactive cells was found in layer II. Lower density of GABAergic cells was found in layers I and III and the subjacent endopiriform cortex. When cells were quantified in 19 corresponding sections of the piriform cortex, covering most of anterior-posterior extension of this region, there appeared to be an increased density of GABAergic neurons in sections near to or within the transition zone between anterior and posterior piriform cortex. A more detailed analysis at 4 section levels in the anterior and posterior piriform cortex and the transition zone between the 2 parts substantiated a significantly higher density of GABAergic neurons in the transition zone, which was predominantly due to increased numbers of cells in layers II and III. We propose that the transition zone between anterior and posterior piriform cortex is a location where numerous GABAergic interneurons regulate the activity of neighbouring deep pyramidal cells which receive dense excitatory input from both the olfactory bulb and distant pyramidal cells in the more anterior and posterior parts of the piriform cortex at the same time, thus increasing the risk of paroxysmal activation within this restricted area. This proposal is in line with recent observations of increased susceptibility to epileptiform activation and to kindling-induced neurochemical alterations within the transition zone between anterior and posterior piriform cortex.

摘要

越来越多的证据表明,梨状皮质在癫痫诱导易感性以及对源自其他边缘脑区的癫痫发作所产生的功能改变方面存在前后差异,但沿梨状皮质前后轴出现这种差异的原因尚不清楚。在本研究中,通过对γ-氨基丁酸(GABA)和GABA合成酶谷氨酸脱羧酶进行免疫细胞化学定位,在光镜水平上已在大鼠梨状皮质中鉴定出GABA能神经元。为此使用了一种抗GABA单克隆抗体,以及用于比较的抗GABA和谷氨酸脱羧酶多克隆抗体。在梨状皮质的前部和后部,GABA免疫反应性细胞数量和密度最高的是在II层。在I层、III层以及相邻的内梨状皮质中,GABA能细胞的密度较低。当对梨状皮质19个相应切片中的细胞进行定量时,这些切片覆盖了该区域大部分的前后延伸范围,结果显示在靠近梨状皮质前部和后部之间过渡区或处于该过渡区内的切片中,GABA能神经元的密度有所增加。对梨状皮质前部、后部以及这两部分之间过渡区的4个切片水平进行更详细的分析证实,过渡区中GABA能神经元的密度显著更高,这主要是由于II层和III层中细胞数量增加所致。我们提出,梨状皮质前部和后部之间的过渡区是一个众多GABA能中间神经元调节相邻深层锥体细胞活动的位置,这些深层锥体细胞同时从嗅球以及梨状皮质前部和后部更远端的锥体细胞接收密集的兴奋性输入,从而增加了该受限区域内阵发性激活的风险。这一观点与最近关于梨状皮质前部和后部之间过渡区内对癫痫样激活和点燃诱导的神经化学改变易感性增加的观察结果一致。

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