PierFranco Spano scite author profile

Aspirin (acetylsalicylic acid) is a commonly prescribed drug with a wide pharmacological spectrum. At concentrations compatible with amounts in plasma during chronic anti-inflammatory therapy, acetylsalicylic acid and its metabolite sodium salicylate were found to be protective against neurotoxicity elicited by the excitatory amino acid glutamate in rat primary neuronal cultures and hippocampal slices. The site of action of the drugs appeared to be downstream of glutamate receptors and to involve specific inhibition of glutamate-mediated induction of nuclear factor kappa B. These results may contribute to the emerging theme of anti-inflammatory drugs and neurodegeneration.

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SNARE protein redistribution and synaptic failure in a transgenic mouse model of Parkinson’s disease

Garcia-Reitböck

et al. 2010

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The pre-synaptic protein alpha-synuclein is the main component of Lewy bodies and Lewy neurites, the defining neuropathological characteristics of Parkinson's disease and dementia with Lewy bodies. Mutations in the alpha-synuclein gene cause familial forms of Parkinson's disease and dementia with Lewy bodies. We previously described a transgenic mouse line expressing truncated human alpha-synuclein(1-120) that develops alpha-synuclein aggregates, striatal dopamine deficiency and reduced locomotion, similar to Parkinson's disease. We now show that in the striatum of these mice, as in Parkinson's disease, synaptic accumulation of alpha-synuclein is accompanied by an age-dependent redistribution of the synaptic SNARE proteins SNAP-25, syntaxin-1 and synaptobrevin-2, as well as by an age-dependent reduction in dopamine release. Furthermore, the release of FM1-43 dye from PC12 cells expressing either human full-length alpha-synuclein(1-140) or truncated alpha-synuclein(1-120) was reduced. These findings reveal a novel gain of toxic function of alpha-synuclein at the synapse, which may be an early event in the pathogenesis of Parkinson's disease.

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Regulation of Dopamine D1 Receptor Trafficking and Desensitization by Oligomerization with Glutamate N-Methyl-D-aspartate Receptors

Fiorentini

Gardoni

Spano

et al. 2003

Journal of Biological Chemistry

207

179

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Activation of dopamine D 1 receptors is critical for the generation of glutamate-induced long-term potentiation at corticostriatal synapses. In this study, we report that, in striatal neurons, D 1 receptors are co-localized with N-methyl-D-aspartate (NMDA) receptors in the postsynaptic density and that they co-immunoprecipitate with NMDA receptor subunits from postsynaptic density preparations. Using modified bioluminescence resonance energy transfer, we demonstrate that D 1 and NMDA receptor clustering reflects the existence of direct interactions. The tagged D 1 receptor and NR1 subunit cotransfected in COS-7 cells generated a significant bioluminescence resonance energy transfer signal that was insensitive to agonist stimulation and that did not change in the presence of the NR2B subunit, suggesting that the D 1 receptor constitutively and selectively interacts with the NR1 subunit of the NMDA channel. Oligomerization with the NR1 subunit substantially modified D 1 receptor trafficking. In individually transfected HEK293 cells, NR1 was localized in the endoplasmic reticulum, whereas the D 1 receptor was targeted to the plasma membrane. In cotransfected cells, both the D 1 receptor and NR1 subunit were retained in cytoplasmic compartments. In the presence of the NR2B subunit, the NR1-D 1 receptor complex was translocated to the plasma membrane. These data suggest that D 1 and NMDA receptors are assembled within intracellular compartments as constitutive heteromeric complexes that are delivered to functional sites. Coexpression with NR1 and NR2B subunits also abolished agonist-induced D 1 receptor cytoplasmic sequestration, indicating that oligomerization with the NMDA receptor could represent a novel regulatory mechanism modulating D 1 receptor desensitization and cellular trafficking. Dopaminergic fibers originating in the substantia nigra and cortical glutamatergic neurons extensively interact in the striatum to drive the physiological functions of this structure from motor planning to reward seeking and procedural learning (1, 2). The critical importance of dopamine in this system is such that the degeneration of nigral dopaminergic neurons leads to the motor and cognitive deficits of Parkinson's disease (3).At the cellular level, nigral and cortical fibers converge on the medium spiny projection neurons (4), where dopamine D 1 -and D 2 -like receptors are coexpressed to high degree with glutamate NMDA 1 and non-NMDA receptor channels (5-8). From a functional point of view, it is well established that dopamine modulates the firing pattern of these neurons. In particular, there is evidence that dopamine, while attenuating the responses mediated by non-NMDA receptors, potentiates those associated with activation of NMDA receptors (2). The D 1 receptor appears to be involved in these interactions. In fact, activation of D 1 receptors in medium spiny neurons enhances NMDA-induced whole cell currents (2, 9) and is a critical requirement for the formation of NMDA-mediated long-term potentiation at corticostriatal...

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Bim and Noxa Are Candidates to Mediate the Deleterious Effect of the NF-κB Subunit RelA in Cerebral Ischemia

Inta¹,

Paxian²,

et al. 2006

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