Localisation of GABA(A) receptor epsilon-subunit in cholinergic and aminergic neurones and evidence for co-distribution with the theta-subunit in rat brain.

In situ hybridisation and immunohistochemical methodologies suggest the existence of a large diversity of GABA(A) receptor subtypes in the brain. These are hetero-oligomeric proteins modulated by a number of clinically important drugs, depending on their subunit composition. We recently cloned and localised the rat GABA(A) receptor epsilon-subunit by in situ hybridisation and immunohistochemical procedures. Here, in a dual-labelling immunohistochemical study in the rat brain, we used our affinity-purified antiserum to epsilon with antisera to markers of cholinergic, catecholaminergic, and serotonergic neurones. As far as cholinergic systems were concerned, epsilon-immunoreactivity was expressed in all forebrain cell-groups, as well as in the caudal lateral pontine tegmentum and dorsal motor nucleus of the vagus nerve. As far as dopaminergic systems were concerned, epsilon-immunoreactivity was found to be expressed in a great number of hypothalamic cell-groups (A15, A14 and A12) and in the substantia nigra pars compacta. The noradrenergic, and to a lesser extent, adrenergic cell-groups were all epsilon-immunoreactive. Also, epsilon-immunoreactivity was detected in all serotonergic cell-groups. We also revealed by in situ hybridisation in a monkey brain that epsilon mRNA was expressed in the locus coeruleus, as previously observed in rats. Finally, by using in situ hybridisation in rat brains, we compared the distribution of the mRNA of epsilon with that of the recently cloned theta-subunit of the GABA(A) receptor. Both subunits showed strikingly overlapping expression patterns throughout the brain, especially in the septum, preoptic areas, various hypothalamic nuclei, amygdala, and thalamus, as well as the aforementioned monoaminergic cell-groups. No theta-mRNA signals were detected in cholinergic cell-groups. Taken together with previously published evidence of the presence of the alpha3-subunit in monoamine- or acetylcholine-containing systems, our data suggest the existence of novel GABA(A) receptors comprising alpha3/epsilon in cholinergic and alpha3/theta/epsilon in monoaminergic cell-groups.

cDNA cloning and expression of a gamma-aminobutyric acid A receptor epsilon-subunit in rat brain.

A cDNA encoding a GABA(A) receptor subunit was isolated from rat brain. The predicted protein is 70% identical to the human epsilon-subunit. It was recently reported [Sinkkonen et al. (2000), J. Neurosci., 20, 3588-3595] that the rodent epsilon-subunit mRNA encoded an additional sequence ( approximately 400 residues). We provide evidence that human and rat epsilon-subunit are similar in size. The distribution of cells expressing the GABA(A) epsilon-subunit was examined in the rat brain. In situ hybridization histochemistry revealed that epsilon-subunit mRNA is expressed by neurons located in septal and preoptic areas, as well as in various hypothalamic nuclei, including paraventricular, arcuate, dorsomedial and medial tuberal nuclei. The mRNA was also detected in major neuronal groups with broad-range influence, such as the cholinergic (basal nucleus), dopaminergic (substantia nigra compacta), serotonergic (raphe nuclei), and noradrenergic (locus coeruleus) systems. Immunohistochemistry using an affinity-purified antiserum directed towards the N-terminal sequence unique to the rat epsilon-subunit revealed the presence of epsilon-subunit immunoreactivity over the somatodendritic domain of neurons with a distribution closely matching that of mRNA-expressing cells. Moreover, using in situ hybridization, alpha3, theta and epsilon GABA(A) subunit mRNAs were all detected with an overlapping distribution in neurons of the dorsal raphe and the locus coeruleus. Our results suggest that novel GABA(A) receptors may regulate, neuroendocrine and modulatory systems in the brain.