Isabel Espadas scite author profile

Associative learning depends on multiple cortical and subcortical structures, including striatum, hippocampus, and amygdala. Both glutamatergic and dopaminergic neurotransmitter systems have been implicated in learning and memory consolidation. While the role of glutamate is well established, the role of dopamine and its receptors in these processes is less clear. In this study, we used two models of dopamine D 1 receptor (D 1 R, Drd1a) loss, D 1 R knock-out mice (Drd1a

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N370S‐GBA1 mutation causes lysosomal cholesterol accumulation in Parkinson's disease

García‐Sanz

et al. 2017

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Methamphetamine Causes Degeneration of Dopamine Cell Bodies and Terminals of the Nigrostriatal Pathway Evidenced by Silver Staining

Ares-Santos

Granado

Espadas

et al. 2013

Neuropsychopharmacol

132

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Methamphetamine is a widely abused illicit drug. Recent epidemiological studies showed that methamphetamine increases the risk for developing Parkinson's disease (PD) in agreement with animal studies showing dopaminergic neurotoxicity. We examined the effect of repeated low and medium doses vs single high dose of methamphetamine on degeneration of dopaminergic terminals and cell bodies. Mice were given methamphetamine in one of the following paradigms: three injections of 5 or 10 mg/kg at 3 h intervals or a single 30 mg/kg injection. The integrity of dopaminergic fibers and cell bodies was assessed at different time points after methamphetamine by tyrosine hydroxylase immunohistochemistry and silver staining. The 3 Â 10 protocol yielded the highest loss of striatal dopaminergic terminals, followed by the 3 Â 5 and 1 Â 30. Some degenerating axons could be followed from the striatum to the substantia nigra pars compacta (SNpc). All protocols induced similar significant degeneration of dopaminergic neurons in the SNpc, evidenced by aminocupric-silver-stained dopaminergic neurons. These neurons died by necrosis and apoptosis. Methamphetamine also killed striatal neurons. By using D1-Tmt/D2-GFP BAC transgenic mice, we observed that degenerating striatal neurons were equally distributed between direct and indirect medium spiny neurons. Despite the reduced number of dopaminergic neurons in the SNpc at 30 days after treatment, there was a partial time-dependent recovery of dopamine terminals beginning 3 days after treatment. Locomotor activity and motor coordination were robustly decreased 1-3 days after treatment, but recovered at later times along with dopaminergic terminals. These data provide direct evidence that methamphetamine causes long-lasting loss/degeneration of dopaminergic cell bodies in the SNpc, along with destruction of dopaminergic terminals in the striatum.

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Isabel Espadas

Associative Learning and CA3–CA1 Synaptic Plasticity Are Impaired in D₁R Null,Drd1a^−/−Mice and in Hippocampal siRNA SilencedDrd1aMice

N370S‐GBA1 mutation causes lysosomal cholesterol accumulation in Parkinson's disease

Methamphetamine Causes Degeneration of Dopamine Cell Bodies and Terminals of the Nigrostriatal Pathway Evidenced by Silver Staining

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Isabel Espadas

Associative Learning and CA3–CA1 Synaptic Plasticity Are Impaired in D1R Null,Drd1a−/−Mice and in Hippocampal siRNA SilencedDrd1aMice

N370S‐GBA1 mutation causes lysosomal cholesterol accumulation in Parkinson's disease

Methamphetamine Causes Degeneration of Dopamine Cell Bodies and Terminals of the Nigrostriatal Pathway Evidenced by Silver Staining

Contact Info

Product

Resources

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Associative Learning and CA3–CA1 Synaptic Plasticity Are Impaired in D₁R Null,Drd1a^−/−Mice and in Hippocampal siRNA SilencedDrd1aMice