Downloads provided by UsageCountsUnderstanding the Functional Plasticity in Neural Networks of the Basal Ganglia in Cocaine Use Disorder: A Role for Allosteric Receptor-Receptor Interactions in A2A-D2 Heteroreceptor Complexes
Copyright policy ) Borroto Escuela, Do; Wydra, K; Pintsuk, J; Narvaez, M; Corrales, F; Zaniewska, M; Agnati, Lf; +5 Authors
Borroto Escuela, Do; Wydra, K; Pintsuk, J; Narvaez, M; Corrales, F; Zaniewska, M; Agnati, Lf; Franco, R; TANGANELLI, Sergio; FERRARO, Luca Nicola; Filip, M; Fuxe, K.6.;
Understanding the Functional Plasticity in Neural Networks of the Basal Ganglia in Cocaine Use Disorder: A Role for Allosteric Receptor-Receptor Interactions in A2A-D2 Heteroreceptor Complexes
Our hypothesis is that allosteric receptor-receptor interactions in homo- and heteroreceptor complexes may form the molecular basis of learning and memory. This principle is illustrated by showing how cocaine abuse can alter the adenosine A2AR-dopamine D2R heterocomplexes and their receptor-receptor interactions and hereby induce neural plasticity in the basal ganglia. Studies with A2AR ligands using cocaine self-administration procedures indicate that antagonistic allosteric A2AR-D2R heterocomplexes of the ventral striatopallidal GABA antireward pathway play a significant role in reducing cocaine induced reward, motivation, and cocaine seeking. Anticocaine actions of A2AR agonists can also be produced at A2AR homocomplexes in these antireward neurons, actions in which are independent of D2R signaling. At the A2AR-D2R heterocomplex, they are dependent on the strength of the antagonistic allosteric A2AR-D2R interaction and the number of A2AR-D2R and A2AR-D2R-sigma1R heterocomplexes present in the ventral striatopallidal GABA neurons. It involves a differential cocaine-induced increase in sigma1Rs in the ventral versus the dorsal striatum. In contrast, the allosteric brake on the D2R protomer signaling in the A2AR-D2R heterocomplex of the dorsal striatopallidal GABA neurons is lost upon cocaine self-administration. This is potentially due to differences in composition and allosteric plasticity of these complexes versus those in the ventral striatopallidal neurons.
Spain, Spain, Spain, Italy
Adenosine, Receptor, Adenosine A2A, Dopamine, Neurosciences. Biological psychiatry. Neuropsychiatry, Self Administration, Review Article, Ganglis basals, Proximity ligation assay, Basal Ganglia, Cocaine-Related Disorders, Allosteric Regulation, Cocaine, Synaptic-transmission, Xarxes neuronals (Neurobiologia), Purinergic P1 Receptor Agonists, Animals, Humans, Integrative mechanism, Neural networks (Neurobiology), Ego, D2 receptors, Modulation, Motivation, Neuronal Plasticity, Receptors, Dopamine D2, Adenosine a(2a) receptors, Communication, Cocaïna, Protein Subunits, Basal ganglia, Glutamate, Nerve Net, Higher-order oligomers, RC321-571
Adenosine, Receptor, Adenosine A2A, Dopamine, Neurosciences. Biological psychiatry. Neuropsychiatry, Self Administration, Review Article, Ganglis basals, Proximity ligation assay, Basal Ganglia, Cocaine-Related Disorders, Allosteric Regulation, Cocaine, Synaptic-transmission, Xarxes neuronals (Neurobiologia), Purinergic P1 Receptor Agonists, Animals, Humans, Integrative mechanism, Neural networks (Neurobiology), Ego, D2 receptors, Modulation, Motivation, Neuronal Plasticity, Receptors, Dopamine D2, Adenosine a(2a) receptors, Communication, Cocaïna, Protein Subunits, Basal ganglia, Glutamate, Nerve Net, Higher-order oligomers, RC321-571
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