Vardi N, Auerbach P
Department of Neuroscience, University of Pennsylvania, Philadelphia 19104.
J Comp Neurol. 1995 Jan 16;351(3):374-84. doi: 10.1002/cne.903510305.
We studied the expression of glutamate decarboxylase (GAD), GAD65 and GAD67, in cat retina by immunocytochemistry. About 10% of GABAergic amacrine cells express only GAD65 and 30% express only GAD67. Roughly 60% contain both forms of the enzyme, but GAD67 is present only at low levels in the majority of these double-labeled amacrine cells. The staining pattern in the inner plexiform layer (IPL) for the two GAD forms was also different. GAD65 was restricted to strata 1-4, and GAD67 was apparent throughout the IPL but was strongest in strata 1 and 5. This indicates that somas, as well as their processes, are differentially stained for the two forms of GAD. Cell types expressing only GAD65 include interplexiform cells, one type of cone bipolar cell, and at least one type of serotonin-accumulating amacrine cell. Cell types expressing only GAD67 include amacrine cells synthesizing dopamine, amacrine cells synthesizing nitric oxide (NO), and amacrine cells accumulating serotonin. Cholinergic amacrine cells express a low level of both GAD forms. Our findings in the retina are consistent with previous observations in the brain that GAD65 expression is greater in terminals than in somas. In addition, in retina most neurons expressing GAD67 also contain a second neurotransmitter as well as GABA, and they tend to be larger than neurons expressing GAD65. We propose that large cells have a greater demand for GABA than small cells, and thus require the constant, relatively unmodulated level of GABA that is provided by GAD67.
我们通过免疫细胞化学方法研究了猫视网膜中谷氨酸脱羧酶(GAD)、GAD65和GAD67的表达情况。约10%的γ-氨基丁酸能无长突细胞仅表达GAD65,30%仅表达GAD67。约60%的细胞同时含有这两种酶形式,但在大多数这些双标记的无长突细胞中,GAD67仅以低水平存在。两种GAD形式在内网状层(IPL)的染色模式也不同。GAD65局限于第1 - 4层,而GAD67在整个IPL中都可见,但在第1层和第5层最强。这表明两种GAD形式在细胞体及其突起上的染色存在差异。仅表达GAD65的细胞类型包括网间细胞、一种视锥双极细胞以及至少一种积累5-羟色胺的无长突细胞。仅表达GAD67的细胞类型包括合成多巴胺的无长突细胞、合成一氧化氮(NO)的无长突细胞以及积累5-羟色胺的无长突细胞。胆碱能无长突细胞两种GAD形式的表达水平都较低。我们在视网膜中的发现与先前在大脑中的观察结果一致,即GAD65在终末的表达高于细胞体。此外,在视网膜中,大多数表达GAD67的神经元除了γ-氨基丁酸外还含有第二种神经递质,并且它们往往比表达GAD65的神经元更大。我们推测,大细胞比小细胞对γ-氨基丁酸的需求更大,因此需要GAD67提供的恒定、相对未受调节的γ-氨基丁酸水平。
