Role of the thalamus in the physiopathology of epilepsy

Early hypotheses on the origin of primary generalized epilepsy suggested a determinant role for the "centrencephalon" in the triggering of discharges of generalized spike-waves (GSW) and tonic-clonic crises (TCC). It was demonstrated in this respect that bilateral cortical spike-wave discharges at 3 c/sec were obtained by electrical stimulation of intralaminar nuclei in the rat. The role of the thalamus in the genesis of GSW and TCC was subsequently demonstrated in several experimental models. However, the thalamus is apparently not involved in the genesis of EEG manifestations of generalized epilepsy and most authors agree that the latter are of cortical origin since a) with or without cardiazol, generalized seizures may occur after ablation of cat thalamus; b) in the cat diffuse cortical application of dilute penicillin can reproduce signs of generalized epilepsy observed after systemic injection of penicillin to this animal; c) finally paroxysmal discharges which appear in subcortical structures in the photosensitive baboon are always preceded by frontal cortical spike-waves; similarly intermittent light stimulation-provoked TCC always arise from the frontal cortex and furthermore hemispheric synchronization of attacks disappears after callosotomy. These findings indicate that the origin of GSW and TCC, is not in the thalamus but that the latter nevertheless plays a role in their elaboration.     

Myoclonus developing after vermisectomy in photosensitive Papio papio.

Two vermisectomized photosensitive baboons exhibited two different types of myoclonus, one induced by intermittent light stimulation (ILS) and the other occuring "spontaneously". The characteristics of these two types of myoclonus are described from a clinical and from an ECoG point of view. Myoclonus induced by ILS (ML) started at the eyelids and secondarily invaded the face and body; it was always preceded by frontorolandic spike-waves or polyspike-waves. The "spontaneous" myoclonus which followed vermisectomy (MV) was "massive", but involved firstly the trunk and secondarily the face and limbs; no ECoG paraoxysm accompanied this myoclonus, but we observed a parietal evoked potential of small amplitude, 10--15 msec after its onset. If MLs can be considered as consequences of the fronto-rolandic paroxysmal discharges, MVs seem to originate in the brain stem but appear similar to action myoclonus. This experimental situation showing two types of myoclonus resembles human hereditary degenerative syndromes (dyssynergic cerebellar myoclonus, progressive myoclonic epilepsy), without being exactly comparable. The conditions in which MVs were seen and their modifications during sleep and by different drugs are described. The relationships between MVs and MLs and myoclonic epilepsy are discussed.     

Effects of unilateral lesion of the nucleus basalis of Meynert on brain glucose utilization in callosotomized baboons: a PET study

Prior work has demonstrated that unilateral lesions of the nucleus basalis of Meynert (NbM) in baboons induce a marked reduction in glucose utilization of the ipsilateral cerebral cortex, linearly proportional to the depression in cortical choline acetyltransferase (ChAT) activity achieved. Unexpectedly, there was also marked hypometabolism of the contralateral cerebral cortex, and glucose utilization recovered gradually on both sides despite persistent deficit in cortical ChAT activity. To investigate the role of the corpus callosum (CC) in this bilateral metabolic effect and subsequent recovery, three baboons were subjected to unilateral electrolytic NbM lesion greater than 3 months following section of the anterior CC. Brain glucose utilization was sequentially studied by positron emission tomography; ChAT activity was measured and histological sections obtained after death. In these animals, the NbM lesion also induced significant metabolic depression over the ipsilateral cortex, proportional to the reduction in ChAT activity. Corpus callosotomy did not prevent the contralateral metabolic effects, suggesting that the latter do not normally operate through the CC. However, there was no significant recovery of glucose utilization, suggesting that, following unilateral NbM lesion, the CC normally mediates, at least in part, the recovery of cortical glucose utilization.     

Proconvulsant effects in baboons of beta-carboline, a putative endogenous ligand for benzodiazepine receptors

beta-Carboline-3-carboxylic acid ethyl ester (beta-CCE) was tested on two models of epilepsy in the baboon: kainic acid-induced limbic status epilepticus and photosensitive epilepsy. Beta-CCE, at very low doses ranging from 8 to 100 microgram/kg (i.v.), induced a reactivation of the limbic focus and photomyoclonic and generalized seizures in photosensitive and non-photosensitive baboons. The proconvulsant effect of beta-CCE may be associated with its binding to a particular subclass of benzodiazepine receptors.     

Effects of pharmacological manipulation on neurotransmitter and other amino acid levels in the CSF of the Senegalese baboonPapio papio

The concentrations of GABA, glutamate, aspartate, glycine, taurine, glutamine, asparagine and alanine were determined in the CSF of 10 Senegalese baboons (Papio papio) following initial ketamine anaesthesia and subsequent administration (4 h later) of different compounds known to alter either inhibitory or excitatory neurotransmission. Ketamine itself was apparently without effect as the administration of a second dose of ketamine did not significantly alter the levels of any of the amino acids studied, although GABA levels tended to decrease. The presence of haemolysed material in occasional samples was associated with high GABA, glutamate, aspartate, taurine and asparagine levels. Therefore only haemolysate-free samples were included for analysis. Of the compounds administered, gamma-vinyl GABA had the most evident effect on CSF amino acid levels, increasing GABA (greater than 5-fold) and decreasing glutamate (greater than 50%), aspartate (40-50%), asparagine (20%) and alanine (30-35%) levels. The changes in GABA, glutamate and aspartate were still apparent 24 h post-gamma-vinyl GABA administration. In contrast, sodium valproate did not significantly alter the CSF levels of any of the amino acids studied. Upon acute administration allylglycine decreased the CSF concentrations of GABA and alanine, but not glutamate. These alterations are unlikely related to the occurrence of allylglycine-induced convulsions (in 2 of 4 experiments) as electroconvulsive shock did not alter CSF amino acid levels. During the experimental period encompassing the allylglycine injection (8 weeks), basal (initial post-ketamine, pre-drug sample) amino acid levels were abnormal with large increases in glutamate, GABA, aspartate and taurine whereas asparagine levels were below the limit of detection. Diazepam administration was followed by a significant increase in taurine and a decrease in aspartate levels.(ABSTRACT TRUNCATED AT 250 WORDS)     

A novel immunoglobulin superfamily junctional molecule expressed by antigen presenting cells, endothelial cells and platelets.

The architecture of lymphoid microenvironments depends upon complex interactions between several stromal cell types. We describe in this report the cloning of a cDNA which encodes a novel membrane molecule containing two external Ig-like domains. It is expressed at the junction between endothelial cells including HEV. It is also expressed by platelets and MHC class II+ antigen presenting cells in thymic medulla and T-cell areas in peripheral lymphoid organs. These cells which lack in RelB-deficient mice include tissue-derived dendritic, epithelial cells and macrophages. Thus, this molecule might contribute to the organization of cell junctions in different microenvironments.