Pierri J N, Chaudry A S, Woo T U, Lewis D A
Department of Psychiatry, University of Pittsburgh, PA 15213, USA.
Am J Psychiatry. 1999 Nov;156(11):1709-19. doi: 10.1176/ajp.156.11.1709.
Abnormalities in prefrontal cortical gamma-aminobutyric acid (GABA) neurotransmission may contribute to cognitive dysfunction in schizophrenia. The density of chandelier neuron axon terminals (cartridges) immunoreactive for the GABA membrane transporter (GAT-1) has been reported to be reduced in the dorsolateral prefrontal cortex of schizophrenic subjects. Because cartridges regulate the output of pyramidal cells, this study analyzed the laminar distribution of GAT-1-immunoreactive cartridges to determine whether certain subpopulations of pyramidal cells are preferentially affected.
Measurements were made of the density of GAT-1 -immunoreactive cartridges in layers 2-3a, 3b-4, and 6 of dorsolateral prefrontal cortex area 46 in 30 subjects with schizophrenia, each of whom was matched to one normal and one psychiatric comparison subject. GAT-1-immunoreactive cartridge density was also examined in monkeys chronically treated with haloperidol.
Relative to both comparison groups, the schizophrenic subjects had significantly lower GAT-1-immunoreactive cartridge density in layers 2-3a and 3b-4. The decrease was most common and most marked in layers 3b-4, where 80% of the schizophrenic subjects exhibited an average 50.1% decrease in cartridge density in comparison with the matched normal subjects. In contrast, GAT-1-immunoreactive cartridge density was unchanged in the haloperidol-treated monkeys.
These findings demonstrate that the density of GAT-1-immunoreactive cartridges is reduced in the majority of schizophrenic subjects and that this alteration may most prominently affect the function of pyramidal cells located in the middle cortical layers. This abnormality may reflect a number of underlying deficits, including a primary defect in dorsolateral prefrontal cortex circuitry or a secondary response to altered thalamic input to this region.
前额叶皮质γ-氨基丁酸(GABA)神经传递异常可能导致精神分裂症的认知功能障碍。据报道,在精神分裂症患者的背外侧前额叶皮质中,对GABA膜转运体(GAT-1)免疫反应阳性的吊灯神经元轴突终末(突触小体)密度降低。由于突触小体调节锥体细胞的输出,本研究分析了GAT-1免疫反应阳性突触小体的层状分布,以确定锥体细胞的某些亚群是否受到优先影响。
对30例精神分裂症患者背外侧前额叶皮质46区第2-3a层、3b-4层和第6层中GAT-1免疫反应阳性突触小体的密度进行测量,每位患者均与一名正常对照者和一名精神疾病对照者匹配。还检测了长期接受氟哌啶醇治疗的猴子的GAT-1免疫反应阳性突触小体密度。
相对于两个对照组,精神分裂症患者在第2-3a层和3b-4层的GAT-1免疫反应阳性突触小体密度显著降低。这种降低在3b-4层最为常见且最为明显,与匹配的正常受试者相比,80%的精神分裂症患者突触小体密度平均降低了50.1%。相比之下,氟哌啶醇治疗的猴子的GAT-1免疫反应阳性突触小体密度没有变化。
这些发现表明,大多数精神分裂症患者GAT-1免疫反应阳性突触小体的密度降低,这种改变可能最显著地影响位于皮质中层的锥体细胞的功能。这种异常可能反映了许多潜在的缺陷,包括背外侧前额叶皮质回路的原发性缺陷或该区域丘脑输入改变的继发性反应。
