Neuroscience
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Intracellular recordings from neurons in the dorsal root ganglion and dorsal horn, in an in vitro spinal cord-dorsal root ganglion preparation, were used to investigate the role of large and small afferent fibers in the sensory synaptic transmission of the superficial dorsal horn. Raising the extracellular potassium concentration from 3.1 to 25-50 mM in the dorsal root ganglion compartment evoked a large amplitude depolarization and blocked action potentials in the large neurons of dorsal root ganglion, and it synaptically excited dorsal horn neurons. Excitatory postsynaptic potentials that were evoked by electrical stimulation of large myelinated fibers, but not those evoked by activation of small unmyelinated fibers, were blocked by the potassium treatment of the dorsal root. ⋯ During the period of capsaicin desensitization, synaptic activation of dorsal horn neurons by application of high potassium to the dorsal root ganglion and electrical stimulation of slow fibers was blocked. The opioid receptor agonist (D-Ala2, D-Leu5)-enkephalinamide (1 microM), applied to the spinal cord slice, abolished the dorsal horn neuron excitation evoked by electrical or chemical activation of slow primary afferent fibers. These findings indicate that high concentrations of K+ applied to the dorsal root ganglia selectively activate a primary afferent input to the dorsal horn, which is capsaicin sensitive and tetrodotoxin resistant.
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gamma-Hydroxybutyric acid is a naturally occurring compound which induces bilaterally synchronous spike and wave discharges in rats. The gamma-hydroxybutyric acid model of absence seizures simulates clinical absence seizures behaviorally as well as electrographically. The present study was undertaken in order to establish the role of the high-affinity gamma-hydroxybutyric acid binding sites in the generation of gamma-hydroxybutyric acid-induced spike and wave discharges. ⋯ The CA3 field or dorsal hippocampus possesses the highest density of [3H]gamma-hydroxybutyric acid binding sites of all brain regions. However, no significant change in [3H]gamma-hydroxybutyric acid binding was observed in this region nor was the CA3 field involved in the generation of spike and wave discharges during gamma-hydroxybutyric acid-induced absence-like seizures. These findings confirm that gamma-hydroxybutyric acid-induced absence-like seizures originate from thalamocortical pathways and that the onset of gamma-hydroxybutyric acid-induced spike and wave discharges is directly related to the regulation of gamma-hydroxybutyric acid binding sites in those regions which constitute the involved thalamocortical loop.
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The rostral ventral medulla has been shown to consist of three distinct subregions: the midline or raphé region, the lateral paragigantocellular-gigantocellular region and the rostro-ventrolateral reticular nucleus. All three regions have been shown to contribute to central vaso-regulation and to project towards sympathetic preganglionic neurons of the thoracic spinal cord. Therefore it is of particular interest to describe the interconnections between the three regions and to see if local afferents reach cells which have been implicated in the regulation of descending inputs. ⋯ The results of the present light microscopic tract-tracing study revealed a different pattern of the intramedullary projection of the lateral paragigantocellular-gigantocellular region and the rostroventrolateral reticular nucleus. These data are in support of the proposed parcellation of the two cytoarchitectonically different areas of the rostral ventrolateral medulla into two functionally distinct subdivisions. Furthermore, the direct anatomical connection revealed in the present study between cells of the rostral ventrolateral and ventromedial medulla oblongata indicates the possibility that vasoregulatory effects of some cells of the rostral ventrolateral medulla oblongata might be executed via direct projections onto serotonin-immunoreactive cells of the medullary raphé nuclei.
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We have used the evoked expression of the immediate early gene-encoded proteins (Krox-24, c-Fos, Fos B, Jun D, Jun B, c-Jun) to monitor visceral processing in both the spinal cord and hindbrain structures of rats undergoing either mechanical colorectal or chemical intraperitoneal stimulation. Experiments were conducted under controlled volatile anaesthesia to suppress affective reactions that visceral stimulations may induce. The results refer to the effects of anaesthesia alone, and of both innocuous and noxious stimulations. ⋯ The Edinger-Westphal nucleus is a structure in which noxious-evoked labelling was superposed onto the anaesthesia-evoked labelling. Nociception-evoked overexpression in this nucleus was maximal for intraperitoneal inflammation. The present work demonstrates that the central effects induced by either anaesthesia or visceroception including pain can be effectively monitored through the induction of an array of immediate early genes.(ABSTRACT TRUNCATED AT 400 WORDS)
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As excitatory amino acid receptors have been implicated in nociceptive sensory transmission, the principal objective of the present study was to investigate the effects of various excitatory amino acid antagonists on naturally evoked responses in spinal dorsal horn neurons. Extracellular single unit activity was recorded from functionally identified, spinal dorsal horn neurons in unanesthetized, decerebrated cats and in alpha-chloralose-anesthetized cats. The tests included iontophoretic application of the N-methyl-D-aspartate (NMDA) receptor antagonist 2-amino-5-phosphonovaleric acid (APV), the non-N-methyl-D-aspartate receptor antagonists 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and kynurenate, and also the intravenous administration of the N-methyl-D-aspartate receptor antagonist, ketamine. ⋯ Responses to noxious thermal stimulation were not affected by any of these antagonists, while the response to non-noxious thermal stimulation was blocked by 2-amino-5-phosphonovaleric acid, ketamine and kynurenate in the one neuron studied. The proportion of cells excited by the agonists differed from those observed in decerebrated cats: N-methyl-D-aspartate 9/32 (28%), quisqualate 50/54 (93%), (RS)-alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate 19/23 (83%) and domoate 17/38 (45%). Application of the putative endogenous excitatory amino acid precursor N-acetyl-aspartyl-glutamate (NAAG) did not elicit a response in any of the neurons studied.(ABSTRACT TRUNCATED AT 400 WORDS)