Antibodies Specific for α-Subunit Subtypes of GABAA Receptors Reveal Brain Regional Heterogeneity

Abstract: Antisera were produced in rabbits against synthetic peptides based on subtype-specific regions of the cDNA sequences of the α1, α2, α3, and α4 (also termed α5) subunits of mammalian GABA_A receptors. The antigen peptides were chosen from the putative cytoplasmic loop between the proposed third and fourth membrane spanning helices; they were not only subtype-specific sequences, but also their hydrophilicity and predicted secondary structures suggested high potential antigenicity. In all cases, antipeptide antisera recognized on western blots the corresponding α-subunit polypeptide of the GABA_A receptors purified from bovine brain by benzodiazepine-affinity chromatography, and were able to immunoprecipitate binding activity from detergent-solubilized purified receptors. The four antisera each recognized a unique polypeptide, and only one, in the purified receptor, with α1, α2, α3, and α4 identified at 51, 52, 56, and 57 kDa, respectively. This represents the first identification of the α4 gene product on a gel. Both the relative amount of staining in immunoblots and the fraction of receptor binding that could be immunoprecipitated by saturating concentrations of each of the four subtypespecific antibodies varied in a consistent manner between receptors purified from different brain regions. Thus, cerebral cortex receptor contained all four α polypeptides on western blots, and significant activity could be precipitated by all four. Hippocampal receptor lacked α3 immunoreactivity on blotting and by immunoprecipitation; α1 was less, whereas both α2 and α4 were more abundant in hippocampus than in cortex by both techniques. Cerebellum receptor contained only α1 of the four α subunits tested, and the anti-α1 antibodies immunoprecipitated >90% of the binding activity. The variable amounts of staining and immunoprecipitation from the three brain areas by the four antisera demonstrate the presence of heterooligomeric receptor complexes with different α-subunit constituents in cortex, hippocampus, and cerebellum. The sum of cortical receptor activity precipitated individually by the four anti-α antisera was > 150%, indicating that some heterooligomers are likely to contain more than one class of α subtype, although most receptor complexes probably contain only one α subtype. These α-subunit subtype-specific antibodies should be useful in analyzing structure, function, and localization of GABA_A/benzodiazepine receptors in mammalian brain.