Louise Hewson

Molecular and Functional Diversity of the Expanding GABA-A Receptor Gene Family

ABSTRACT: Fast inhibitory neurotransmission in the mammalian CNS is mediated primarily by the neurotransmitter γ‐aminobutyric acid (GABA), which, upon binding to its receptor, leads to opening of the intrinsic ion channel, allowing chloride to enter the cell. Over the past 10 years it has become clear that a family of GABA‐A receptor subtypes exists, generated through the coassembly of polypeptides selected from α1‐α6, β1‐β3, γ1‐γ3, δ, ɛ, and π to form what is most likely a pentomeric macromolecule. The gene transcripts, and indeed the polypeptides, show distinct patterns of temporal and spatial expression, such that the GABA‐A receptor subtypes have a defined localization that presumably reflects their physiological role. A picture is beginning to emerge of the properties conferred to receptor subtypes by the different subunits; these include different functional properties, differential modulation by protein kinases, and the targeting to different membrane compartments. These properties presumably underlie the different physiological roles of the various receptor subtypes. Recently we have identified a further member of the GABA‐A receptor gene family, which we have termed θ, which appears to be most closely related to the β subunits. The structure, function, and distribution of θ‐containing receptors, and receptors containing the recently reported ɛ subunit, are described.

The substance P antagonist L-760,735 inhibits stress-induced NK1 receptor internalisation in the basolateral amygdala

The distribution of NK(1) receptor immunoreactivity in the amygdaloid complex, induction of NK(1) receptor endocytosis in the amygdala following immobilisation stress, and the ability of pretreatment with the substance P antagonist L-760,735 or imipramine to block this response were examined in gerbils, a species with human-like NK(1) receptor pharmacology. Highest levels of immunolabelling were observed in the anterior, amygdalo-hippocampal and medial nuclei. Less dense labelling was observed in the basolateral nucleus, where it was possible to clearly visualise the distal dendrites of NK(1) immunoreactive neurones and quantify the effect of immobilisation stress on NK(1) receptor endocytosis morphology, a marker of local substance P release. Immobilisation for 1 h caused an approximately 60% increase in the number of dendritic processes undergoing NK(1) receptor endocytosis in the basolateral amygdala that was inhibited by acute pretreatment of animals with L-760,735 (3 mg/kg), but not by imipramine (10 mg/kg). These findings are consistent with other evidence that the amygdala represents a possible site of action for the antidepressant and anxiolytic efficacy of substance P antagonists.

Intra-amygdala injection of the substance P (NK1 receptor) antagonist L-760735 inhibits neonatal vocalisations in guinea-pigs

The involvement of the basolateral amygdala in mediating the inhibition of neonatal vocalisation by substance P (NK(1) receptor) antagonists was examined. These studies determined whether the time course for separation-induced vocalisations in guinea-pig pups coincided with NK(1) receptor internalisation (a marker of substance P release) in the amygdala, and whether vocalisations could be blocked by focal injection of the NK(1) receptor antagonist L-760735 into this brain region. The peak period for neonatal vocalisations occurred 5-10 min following maternal separation. This coincided with the peak increase in the number of cells in the basolateral amygdala exhibiting NK(1) receptor endocytosis, consistent with the proposal that substance P is released in the amygdala as a result of isolation stress. Focal injection of L-760735 (15 nmol per side) but not L-770765 (an analogue of L-760735 which has low NK(1) receptor affinity) into the basolateral amygdala attenuated separation-induced vocalisations. In contrast, injection of L-760735 (15 nmol per side) into the dorsal ventricular nucleus of the thalamus, a region with relatively low density of NK(1) receptors, had no effect on neonatal vocalisations. These findings are consistent with other evidence that the amygdala is one possible site of action for the inhibition of neonatal vocalisations by substance P antagonists.

Analysis of the neurotrophic effects of GPI-1046 on neuron survival and regeneration in culture and in vivo.

The putative neurotrophic effects of the immunophilin ligand GPI-1046 were evaluated in established experimental systems of neuron survival and axon growth in vitro and in vivo. GPI-1046 marginally increased neurite outgrowth of chick dorsal root ganglia in culture under conditions where a very robust effect of nerve growth factor was seen. GPI-1046 failed to protect dopaminergic neurons from 1-methyl-4-phenylpyridinium in culture or to protect cultured cortical neurons from experimentally induced apoptosis in vitro. In adult rats in vivo, daily administration of GPI-1046 (10 mg/kg, s.c.) for three days enhanced the maximal regeneration distance of both motor and large myelinated sensory axons measured using an electrophysiological assay. However, detailed morphometric analysis of these animals failed to provide evidence for an increase in axon numbers in GPI-1046-treated animals. The ability of GPI-1046 to promote the recovery of dopaminergic function following unilateral 6-hydroxydopamine lesions of the substantia nigra was also tested in rats. In the first study, the duration of amphetamine (3 mg/kg, s.c.)-induced circling, but not the maximal number of rotations, was significantly reduced in animals treated with GPI-1046 for five days (10 mg/kg/day). In a second study, testing the effects of delayed GPI-1046 administration, chronic treatment with GPI-1046 (10 mg/kg/day) for two weeks, beginning one month after surgery, did not alter circling responses. Morphometric analysis failed to reveal any changes in either the density of tyrosine hyroxylase-positive fibres in dopaminergic target areas or in cell numbers in the substantia nigra in both experiments. Thus, while GPI-1046 produced marginal effects on neurite outgrowth in dorsal root ganglia cultures and on functional paramaters of nerve regeneration in vivo, we failed to obtain evidence in support of the notion of a general neuroprotective effect of the compound or for an effect on morphologic nerve regeneration in vivo.

Substance P stimulates inhibitory synaptic transmission in the guinea pig basolateral amygdala in vitro

To determine the physiological role of tachykinin NK1 receptors in the basolateral nucleus of the amygdala (BLN) we have studied the electrophysiological effects of substance P (SP) in the absence and presence of selective tachykinin receptor antagonists in guinea pig brain slices. Recordings were made from two populations of neurones; spiny pyramidal and stellate neurones, both thought to be projection neurones. Activation of NK1 receptors with SP increased the frequency of spontaneous inhibitory postsynaptic potentials in the majority of cells. This effect was blocked by bicuculline or tetrodotoxin, but not ionotropic glutamate receptor antagonists. The enhanced synaptic activity induced by SP was antagonised by the NK1 receptor antagonist L-760,735 but not by the less active enantiomer L-781,773 or the NK3 receptor antagonist L-769,927. Thus in the basolateral nucleus of the guinea pig amygdala, NK1 receptor activation preferentially stimulates inhibitory synaptic activity. Consistent with this observation, immunohistochemistry revealed NK1 receptor immunoreactivity to be largely restricted to a subset of GABA interneurones. These studies support a physiological role for SP in the regulation of pathways involved in the control of emotional behaviour.

Edg2 receptor distribution in adult rat brain.

The Edg (endothelial differentiation gene) receptors are recently discovered G-protein coupled receptors which are activated by endogenous lysophospholipids. The cellular activities mediated by Edg receptors are reminiscent of those normally associated with Trk receptor activation and include modulation of cell growth, differentiation, proliferation and migration as well as apoptotic and cytoskeletal effects. In this study we have investigated immunohistochemically the distribution of one family member, the Edg2 receptor, within the adult rat brain and shown the protein expression to be most prominent in white matter tract regions. This suggests a possible role for the Edg2 receptor in nerve cell myelination.

CEP-1347 increases ChAT activity in culture and promotes cholinergic neurone survival following fimbria-fornix lesion.

Recent evidence suggests that the activation of the Jun N-terminal kinase (JNK) signal transduction pathway may be important in neuronal responses to stresses such as trophic factor deprivation. Preventing the activation of JNK and expression of c-Jun may, therefore, be neuroprotective. Here, we report that the small molecule CEP-1347, which has been shown to inhibit the JNK signalling pathway, promotes cholinergic activity in cultured embryonic septal neurones. In vivo, we have shown that CEP-1347, administered either by sub-cutaneous (s.c.) injection or by continuous infusion, is partially neuroprotective, for cholinergic neurones in the medial septum, following fimbria-fornix transection. These data suggest that small molecules such as CEP-1347 may have beneficial effects in treating neurodegenerative diseases.