Neurobiology of disease
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Neurobiology of disease · Oct 2004
Comparative StudyInflammation alters cation chloride cotransporter expression in sensory neurons.
Cation chloride cotransporters have been proposed to play a role in the modulation of neuronal responses to gamma-aminobutyric acid (GABA). In conditions of neuronal damage, where neuronal excitability is increased, the expression of the KCC2 transporter is decreased. This is also seen in spinal cord in models of neuropathic pain. ⋯ In acute arthritis, both NKCC1 and KCC2 mRNA increased in superficial but not deep dorsal horn, and this was accompanied by an increase in protein expression. In chronic arthritis, NKCC1 expression remained raised, but KCC2 mRNA and protein expression returned to control levels. Altered KCC2 and NKCC1 expression in arthritis may contribute to the control of spinal cord excitability and may represent novel therapeutic targets in the treatment of inflammatory pain.
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Neurobiology of disease · Aug 2004
Neonatal hypoxic-ischemic injury increases forebrain subventricular zone neurogenesis in the mouse.
Neurogenesis persists throughout life in the rodent subventricular zone (SVZ)-olfactory bulb pathway and increases in the adult after brain insults. The influence of neonatal injury on SVZ neural precursors is unknown. We examined the effects of hypoxia-ischemia (HI) on neonatal mouse SVZ cell proliferation and neurogenesis. ⋯ HI also stimulated cell proliferation and neurogenesis in the SVZ and peri-infarct striatum. Some newborn cells expressed a neuronal phenotype at P24, but not at P31, indicating that neurogenesis was short-lived. These results suggest that augmenting SVZ neuroblast recruitment and survival may improve neural repair after neonatal brain injury.
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Neurobiology of disease · Jun 2004
Comparative StudyA model of L-DOPA-induced dyskinesia in 6-hydroxydopamine lesioned mice: relation to motor and cellular parameters of nigrostriatal function.
L-DOPA-induced dyskinesia is a major complication of L-DOPA pharmacotherapy in Parkinson's disease, and is thought to depend on abnormal cell signaling in the basal ganglia. In this study, we have addressed the possibility to model L-DOPA-induced dyskinesia in the mouse at both the behavioral and the molecular level. C57BL/6 mice sustained unilateral injections of 6-hydroxydopamine (6-OHDA) either in the medial forebrain bundle (MFB) or in the sensorimotor part of the striatum. ⋯ The development of abnormal movements was accompanied by a striatal induction of DeltaFosB-like proteins and prodynorphin mRNA, that is, molecular markers that are associated with L-DOPA-induced dyskinesia in both rats and nonhuman primates. We conclude that 6-OHDA lesioned mice exhibit behavioral and cellular features of akinesia and L-DOPA-induced dyskinesia that are similar to those previously characterized in rats. The mouse model of L-DOPA-induced dyskinesia will provide a useful tool to study the molecular determinants of this movement disorder in transgenic mice strains.
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Neurobiology of disease · Feb 2004
Excitotoxic degeneration of hypothalamic orexin neurons in slice culture.
Several lines of evidence indicate that narcolepsy, a sleep disorder, results from the loss of hypothalamic orexin (hypocretin)-containing neurons, but the mechanisms responsible for selective elimination of this neuronal population are unknown. Using organotypic rat hypothalamic slice cultures, we investigated vulnerability of orexin neurons to excitotoxic insults. Twenty-four hours of incubation with N-methyl-D-aspartate (NMDA) followed by a recovery period of 72 h resulted in a marked decrease in the number of orexin-immunoreactive neurons, whereas melanin-concentrating hormone (MCH)-immunoreactive neurons in the same cultures were relatively spared. ⋯ Examinations of the effects of several endogenous glutamate receptor agonists as well as a glutamate transporter blocker highlighted quinolinic acid as an endogenous excitotoxin that could cause selective loss of orexin neurons as compared to MCH neurons by activating NMDA receptors. In addition, quinolinic acid-induced decrease of orexin neurons was prevented by an inhibitor of poly(ADP-ribose) polymerases. These results provide the first evidence concerning cytotoxic consequences onto orexin neurons, and indicate that NMDA receptor-mediated injury may contribute to the selective loss of these neurons in the hypothalamus, a prominent neuropathological feature found in narcolepsy patients.
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Neurobiology of disease · Dec 2003
Glia activation and cytokine increase in rat hippocampus by kainic acid-induced status epilepticus during postnatal development.
In adult rats, status epilepticus (SE) induces cytokine production by glia especially when seizures are associated with neuronal injury. This suggests that cytokines may play a role in seizure-induced neuronal damage. As SE-induced injury is age-specific, we used rats of different ages (with distinct susceptibilities to seizure-induced neuronal injury) to elucidate the role of cytokines in this process. ⋯ At 24 h, many injured neurons were present in CA1 and CA3 regions and in 40% of rats in other forebrain areas. These data show that (i) the pattern of glia activation and cytokine gene transcription induced by SE is age-dependent and (ii) neuronal injury in the hippocampus occurs only when cytokines are induced and their synthesis precedes the appearance of neuronal damage. Thus, cytokine expression in immature brain is associated specifically with cell injury rather than with seizures per se, suggesting that proinflammatory cytokines may contribute to the occurence of SE-induced hippocampal damage.