Immunocytochemical Localization of GABAAReceptors in Rat Somatosensory Cortex and Effects of Tactile Deprivation

Abstract

Immunocytochemical techniques were used to investigate the distribution of γ-aminobutyric acid_A (GABA_A) receptors in the rat primary somatosensory cortex (SI). Monoclonal antibody 62-3G1 (de Blas et al., 1988; Vitorica et al., 1988), which recognizes an epitope common to the β₂ and β₃ subunits of the GABA_A receptor, produces staining of small punctate structures throughout the neuropil, and around somata and linear processes in all laminae of SI. Receptor immunostaining is relatively intense in upper lamina I and in lamina IV, where patches of intense receptor staining are interleaved with narrow zones of moderate immunoreactivity. Staining is lightest in lamina Vb, where stained puncta appear to be aligned with radially oriented processes, and moderate in the remaining laminae. Tangential sections through lamina IV reveal that each large cortical barrel encompasses several patches of intense receptor staining that are aligned with the corners or edges of individual barrels; interbarrel septa are moderately stained. The receptor-rich patches in the barrels can be seen to coincide with regions of intense cytochrome oxidase (CO) histochemical staining. A similar correspondence is apparent between a complex lattice of dense receptor clustering and a plexus of dark CO staining in the cortical trunk representation. Six to eight weeks of tactile deprivation produced by simple whisker trimming have no visible effect on GABA_A receptor distribution. This is the case for rats whose whiskers were trimmed only during adulthood and for rats deprived from the day of birth until examination 6-8 weeks later. However, electrocautery ablation of whisker follicles leads to a marked decline in GABA_A receptor immunoreactivity in cortical barrels associated with the ablated follicles. Our findings indicate that there is reasonable, though not perfect, correspondence between the distribution of GABA_A receptors and the distribution of GABA-containing neurons and terminals in rat SI. These elements are associated with regions of intense oxidative metabolic activity revealed by CO staining. The density of GABA_A receptors is reduced in lamina IV following complete loss of peripheral afferent input. However, less severe tactile deprivation, which is known to affect cortical neuron responsiveness, produces little or no change in receptor distribution.