Experimental neurology
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Experimental neurology · Sep 2004
Comparative StudyBlockade of adenosine A2A receptors antagonizes parkinsonian tremor in the rat tacrine model by an action on specific striatal regions.
Acute administration of the acetylcholinesterase inhibitor tacrine to rats induces tremulous jaw movements which can be used as a valuable model of parkinsonian tremor. In the present study, the number of tremor episodes and jaw movements were evaluated to assess the effects of the selective A2A antagonists SCH 58261 and SCH BT2 on tremorgenesis. ⋯ Infusion of SCH BT2 (5 microg/microl), a water-soluble analogue of SCH 58261, in VLS antagonized both tremor episodes (-68%) and jaw movements (-76%) elicited by tacrine (2.5 mg/kg ip), whereas SCH BT2 infusion in DMS was less effective in blocking jaw movements (-50%) and did not significantly affect the number of tremor episodes. Taken together, the results of this study indicate that A2A antagonists effectively reduce the magnitude of tremulous jaw movements induced in rats by acute tacrine, mainly by an action in VLS and suggest that A2A antagonists might be used as specific agents against parkinsonian tremor.
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Experimental neurology · Sep 2004
Comparative StudyAgmatine reduces infarct area in a mouse model of transient focal cerebral ischemia and protects cultured neurons from ischemia-like injury.
Agmatine is a primary amine formed by the decarboxylation of L-arginine synthesized in mammalian brain. In this study, we investigated the neuroprotective effect of agmatine on ischemic and ischemia-like insults. Primary cortical neuronal cultures were subjected to oxygen-glucose deprivation (OGD), a model of ischemia-like injury, and treated with agmatine before or at the start of OGD, or upon reperfusion. ⋯ The number of nNOS immunopositive cells was correlated with neuroprotection. Interestingly, immunoreactivity for iNOS was reduced only when agmatine was administered before and at the onset of MCAO. Our study suggests that agmatine may be a novel therapeutic strategy to reduce cerebral ischemic injury, and may act by inhibiting the detrimental effects of nNOS.
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Experimental neurology · Sep 2004
Comparative StudyTargeted disruption of PSD-93 gene reduces platelet-activating factor-induced neurotoxicity in cultured cortical neurons.
PSD-93, a molecular adaptive protein, binds to and clusters the N-methyl-D-aspartate (NMDA) receptor and assembles a specific set of signaling proteins (for example neuronal nitric oxide synthase, nNOS) around the NMDA receptor at synapses in the central nervous system. This suggests that PSD-93 might mediate many NMDA receptor-dependent physiological and pathophysiological functions. We report here that PSD-93 colocalizes and interacts with the NMDA receptor and neuronal nitric oxide synthase in cultured cortical neurons. ⋯ In addition, the deficiency of PSD-93 markedly attenuated platelet-activating factor-induced increase in cyclic guanosine 3',5'-monophosphate (cGMP) and prevented platelet-activating factor-promoted formation of NMDA receptor-neuronal nitric oxide synthase complex. These findings indicate that PSD-93 is involved in the NMDA receptor--nitric oxide-mediated pathological processing of neuronal damage triggered via platelet--activating factor receptor activation. Since platelet-activating factor is a potent neuronal injury mediator during the development of brain trauma, seizures, and ischemia, the present work suggests that PSD-93 might contribute to molecular mechanisms of neuronal damage in these brain disorders.