Ramoa A S, Paradiso M A, Freeman R D
Neurobiology Group, University of California, Berkeley 94720.
Exp Brain Res. 1988;73(2):285-96. doi: 10.1007/BF00248220.
We have investigated the importance of GABAergic inhibition for the receptive field properties and plasticity of cells in the visual cortex of kittens. Osmotic minipumps were used to continuously infuse the GABA-antagonist, bicuculline methiodide (BIC), into striate cortex. Extracellular recordings were made during BIC infusion to assess neuronal response properties during the blockade of inhibition. Recordings were also made from other kittens after concurrent monocular deprivation and BIC infusion to investigate the importance of response selectivity for ocular dominance plasticity. The minipump delivery technique was used to produce a large volume of cortex presumably free of GABA-ergic inhibition. Compared to recordings in saline-infused control hemispheres, about half of the cells in bicuculline-infused hemispheres had abnormally low orientation selectivity. The low selectivity was generally accompanied by marked anomalies in several other receptive field properties. Particularly striking was the large size of the receptive fields. At eccentricities less than 10 deg many receptive fields subtended from 10 to over 30 deg of arc. The less selective neurons also had abnormal responses to flashed stimuli, giving strong transient responses to the onset and offset of large stationary stimuli which filled their receptive fields. These results imply that intracortical inhibition normally suppresses responses to stimuli within a large excitatory zone beyond the classical receptive field. Inhibition is necessary for the normal orientation selectivity of many cells, although the selectivity may be partially established by the cell's excitatory input. Additionally, intracortical inhibition appears to be necessary for the antagonism and segregation of ON and OFF receptive field subregions. In our study of plasticity, we exploited the fact that BIC treatment greatly increases the range of stimuli that activate cortical neurons. Kittens were monocularly deprived for 7 days concurrently with cortical infusion of BIC. After cessation of the drug treatment, physiological recordings were made. Response properties had returned to normal but neurons in BIC-infused hemispheres had a significantly reduced ocular dominance shift compared to neurons in control hemispheres. This is probably related to the reduced selectivity of cells during BIC infusion. The suggestion here is that there is diminished ocular dominance plasticity in BIC-infused hemispheres because of an increased probability of correlated activity between spontaneous discharge from the closed eye and the cortical activity evoked by the open eye afferents.
我们研究了γ-氨基丁酸(GABA)能抑制对小猫视皮层细胞感受野特性和可塑性的重要性。使用渗透微型泵将GABA拮抗剂甲磺酸荷包牡丹碱(BIC)持续注入纹状皮层。在注入BIC期间进行细胞外记录,以评估抑制阻断期间神经元的反应特性。在同时进行单眼剥夺和注入BIC后,也对其他小猫进行记录,以研究反应选择性对眼优势可塑性的重要性。微型泵给药技术用于产生大量可能无GABA能抑制的皮层区域。与注入生理盐水的对照半球中的记录相比,注入荷包牡丹碱的半球中约一半的细胞具有异常低的方向选择性。低选择性通常还伴随着其他几个感受野特性的明显异常。特别显著的是感受野的大尺寸。在小于10度的偏心度下,许多感受野所张的角度为10度至超过30度。选择性较低的神经元对闪光刺激也有异常反应,对充满其感受野的大的静止刺激的起始和终止会产生强烈的瞬态反应。这些结果表明,皮质内抑制通常会抑制对经典感受野之外的大的兴奋区内刺激的反应。抑制对于许多细胞的正常方向选择性是必要的,尽管选择性可能部分由细胞的兴奋性输入所确立。此外,皮质内抑制似乎对于ON和OFF感受野子区域的拮抗和分离是必要的。在我们的可塑性研究中,我们利用了BIC处理极大地增加了激活皮层神经元的刺激范围这一事实。小猫在皮层注入BIC的同时进行单眼剥夺7天。药物治疗停止后,进行生理记录。反应特性已恢复正常,但与对照半球中的神经元相比,注入BIC的半球中的神经元眼优势偏移明显减少。这可能与注入BIC期间细胞选择性降低有关。这里的推测是,注入BIC的半球中眼优势可塑性降低是因为闭眼自发放电与睁眼传入纤维诱发的皮层活动之间相关活动的可能性增加。
