Neuroscience
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Recent reports have demonstrated that cannabinoid receptor binding decreases in several neurodegenerative diseases related to extrapyramidal function. However, there is little evidence with regard to potential changes of these receptors during senescence. The present study was designed to determine the possible existence of ageing-induced changes in cannabinoid receptor binding and gene expression in extrapyramidal areas. ⋯ In addition, aged rats also exhibited significant reductions in the cannabinoid receptor messenger RNA levels in the medial (-14.3%) and, in particular, in the lateral (-29.4%) caudate putamen, the area where the cell bodies of cannabinoid receptor-containing neurons, projecting to the substantia nigra, entopeduncular nucleus and globus pallidus, are located. In summary, the synthesis and binding levels of cannabinoid receptors markedly dropped in different structures of the extrapyramidal system of aged rats. Since these receptors, located in the basal ganglia, seem to play a role in motor control, this loss of cannabinoid receptors might be related to the motor impairment which progressively appears during senescence.
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It is generally considered that the posteromedial part of the cat's lateral suprasylvian cortex is involved in the analysis of image motion. The main afferents of the posteromedial lateral suprasylvian cortex come from a direct retinogeniculate pathway and indirect retinotectal and retino-geniculo-cortical pathways. Removal of the primary visual cortex does not affect the spatial and temporal processing of suprasylvian cortex cells suggesting that these properties are derived from thalamic input. ⋯ The absence of strong changes in posteromedial lateral suprasylvian cortex cell response properties following the functional blockade of the lateral posterior nucleus suggests that the projections from this part of the thalamus are not essential to generate the spatial characteristics of most posteromedial lateral suprasylvian cortex receptive fields. These properties may be derived from other thalamic inputs (e.g., medial interlaminar nucleus) and/or from the intrinsic computation of the afferent signals within the lateral suprasylvian cortex. On the other hand, it is possible that the lateral posterior nucleus lateral suprasylvian cortex loop may be involved in other functions such as the analysis of complex motion as suggested by the findings from our and other groups.
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Calcium-permeable non-N-methyl-D-aspartate receptor channels are now characterized in much detail, but still little is known about the consequences of Ca2+ influx through these channels in specific neuron types. We are interested in the role of Ca2+-permeable non-N-methyl-D-aspartate receptor channels during differentiation of retinal ganglion cells. However, in view of the conflicting data on the relative Ca2+ permeability of non-N-methyl-D-aspartate receptor channels in these neurons, a more systematic evaluation of permeation properties of different Na+ substitutes was necessary before proceeding with the main goal of the present study evaluating the effects of non-N-methyl-D-aspartate receptor activation on repetitive firing and voltage-activated K+ and Ca2+ conductances. ⋯ Thus, suppression of calcium currents was induced by a non-N-methyl-D-aspartate receptor-mediated rise of the intracellular calcium concentration. The reduction of K+ currents did not depend on extracellular calcium and was insensitive to experimental manipulation of intracellular Ca2+ buffer strength. The interaction between Ca2+-permeable non-N-methyl-D-aspartate receptor channels and voltage-activated Ca2+ and K+ currents may represent an important regulatory mechanism to control the repetitive firing of developing retinal ganglion cells.
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The aim of this study was to establish which regions of the trigeminal nucleus are activated by tooth pulp stimulation in the normal ferret. The distribution of Fos-like immunoreactivity was examined following electrical stimulation of the tooth pulp in the awake and anaesthetized ferret. Stimulus-specific labelling was found in subnuclei caudalis and oralis of the trigeminal spinal nucleus. ⋯ They also demonstrate that light alphaxolone/alphadolone anaesthesia has no effect on stimulus-specific Fos expression following tooth pulp stimulation. The second aim of this study was to develop a clearly defined model for future studies in which Fos expression is no different to that seen in the conscious state. As in the conscious animal, labelling not associated with the stimulus is difficult to distinguish from stimulus specific labelling, further studies using this model of trigeminal nociceptive pathways would be best carried out in lightly anaesthetized animals.
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Given the importance of alpha2-adrenergic receptors in the regulation of catecholaminergic transmission, we analysed the distribution of immunoreactivity corresponding to the C-subtype of alpha2-adrenergic receptor in central catecholaminergic neurons using double-label immunohistochemistry with antibodies directed against alpha2C-adrenergic receptors and tyrosine hydroxylase. Cells exhibiting both alpha2C-adrenergic receptor and tyrosine hydroxylase immunoreactivity were found in most areas containing catecholaminergic cell groups. However, the percentage of double-labelled cells varied in a region-specific manner. ⋯ In the midbrain, alpha2C-adrenergic receptor immunoreactivity was detected in most tyrosine hydroxylase-immunoreactive cells in dopaminergic regions (63% in the retrorubral field, 77-83% in substantia nigra, 67% in ventral tegmental area). These results suggest that alpha2C-adrenergic receptors may act as autoreceptors on some central adrenergic and noradrenergic neurons. In addition, the colocalization of alpha2C-adrenergic receptor and tyrosine hydroxylase immunoreactivity in dopaminergic cell groups suggests that reported effects of alpha2-adrenergic receptor agonists in these areas may be mediated by the C-subtype.