Akiyama H, Kaneko T, Mizuno N, McGeer P L
Department of Psychiatry, Kinsmen Laboratory of Neurological Research, University of British Columbia, Vancouver, Canada.
J Comp Neurol. 1990 Jul 8;297(2):239-52. doi: 10.1002/cne.902970207.
Phosphate-activated glutaminase (PAG), which catalyses conversion of glutamine to glutamate, is a potential marker for glutamatergic, and possibly GABA, neurons in the central nervous system. A polyclonal antibody, raised in rabbits against rat brain PAG, was applied to postmortem human brain tissue to reveal the distribution of PAG in the cerebral cortex. PAG immunoreactivity was observed in pyramidal and non-pyramidal neurons but not in glial cells. In the neocortex, large to medium-sized pyramidal neurons in layers III and V were stained most intensely, while the majority of smaller pyramidal cells were labeled either lightly or moderately. Such modified pyramids as the giant Betz cells, the large pyramidal cells of Meynert, and the solitary cells of Ramón y Cajal were also stained intensely. Fusiform cells in layer VI showed moderate to intense labeling. A number of cortical non-pyramidal neurons of various sizes stained moderately to intensely. These included large basket cells which were identified by their characteristic morphology and size in primary cortical areas. Pyramidal cells in the hippocampal formation as well as basket cells of the stratum oriens stained moderately to intensely. Since pyramidal cells are believed to be glutamatergic and large basket cells GABAergic, these results suggest that PAG plays a role in generating not only transmitter glutamate, but also GABA precursor glutamate.
磷酸激活谷氨酰胺酶(PAG)催化谷氨酰胺转化为谷氨酸,是中枢神经系统中谷氨酸能神经元以及可能的γ-氨基丁酸(GABA)能神经元的潜在标志物。一种针对大鼠脑PAG在兔体内产生的多克隆抗体,被应用于死后的人脑组织,以揭示PAG在大脑皮层中的分布。在锥体神经元和非锥体神经元中观察到PAG免疫反应性,但在神经胶质细胞中未观察到。在新皮层中,Ⅲ层和Ⅴ层的大中号锥体神经元染色最深,而大多数较小的锥体细胞染色较浅或中等。诸如巨贝茨细胞、迈内特大锥体细胞和拉蒙·伊·卡哈尔孤立细胞等特殊锥体细胞也染色强烈。Ⅵ层的梭形细胞显示出中等至强烈的标记。许多不同大小的皮层非锥体神经元染色中等至强烈。这些包括在初级皮层区域通过其特征性形态和大小识别出的大篮状细胞。海马结构中的锥体细胞以及海马下托层的篮状细胞染色中等至强烈。由于锥体细胞被认为是谷氨酸能的,而大篮状细胞是GABA能的,这些结果表明PAG不仅在产生递质谷氨酸方面起作用,而且在产生GABA前体谷氨酸方面也起作用。
