Titre : | Addiction and its brain science |
Titre traduit : | (L'addiction et sa science du cerveau.) |
Auteurs : | R. SPANAGEL ; M. HEILIG |
Type de document : | Périodique |
Année de publication : | 2005 |
Format : | 1813-1822 |
Note générale : |
Addiction, 2005, 100, (12), 1813-1822
|
Langues: | Anglais |
Discipline : | PRO (Produits, mode d'action, méthode de dépistage / Substances, action mode, screening methods) |
Mots-clés : |
Thésaurus mots-clés NEUROBIOLOGIE ; ADDICTION ; RECHERCHE ; MODELE ANIMAL ; GENETIQUE ; MECANISME D'ACTION ; RECHERCHE DE SENSATION ; COMPULSION ; RECHUTE |
Résumé : |
FRANÇAIS :
Etude de synthèse sur l'approche neurologique de l addiction : identification des neuro-circuits et des gènes impliqués dans le comportement addictif. Les modèles animal et les techniques d'imagerie permettent d'identifier les sites neuro-anatomiques responsables de la prise de drogues, des comportements de recherche de drogues, de la perte de contrôle, et de la consommation de drogues malgré les effets secondaires. Les analyses quantitatives des loci et le profil génique permettent d'identifier les gènes "candidats" et de comprendre le basculement moléculaire entre l'usage contrôlé et l'usage compulsif de drogues. ENGLISH: Aims: To illustrate how modern neurobiological approaches will help to identify the neurocircuits and genes involved in addictive behavior. Background: The current disorder concept of addiction includes neurobiological foundations and neurobiological research assuming irreversible molecular and structural changes within the brain dopamine reinforcement system, constituting the 'molecular and structural switch' from controlled drug intake to compulsive drug abuse. However, those irreversible changes have not so far been identified and it is suggested that in addition to the mesolimbic dopamine system, other brain systems including the mesocortical and nigrostriatal pathways as well as their non-dopaminergic feedback-loops might be involved in addictive behavior. Neurobiological approach: A three-step neurobiological approach is described that allows in a first step via novel animal models and imaging techniques to identify the neuroanatomical sites mediating voluntary drug intake, reinstatement of drug-seeking behavior, relapse, loss of control and drug intake despite negative consequences. In a subsequent step, forward genetic approaches including quantitative trait loci (QTL)-analysis and gene expression profiling arc helpful in identifying so-called candidate genes. In a final step, conditional animal mutants and selective pharmacological tools are used to functionally validate candidate genes. Following this validation process, the transfer to the human situation has to be made and candidate genes have to be verified further in well-phenotyped cohorts of addicted patients. Conclusion: This three-step neurobiological approach, that must involve an interdisciplinary team including experimental psychologists, geneticists, molecular biologists and finally clinical addiction researchers, will allow us to understand where and how the addicted brain goes awry. (Author' s abstract) |
Domaine : | Drogues illicites / Illicit drugs |
Sous-type de document : | Etude de synthèse / Synthetic study |
Refs biblio. : | 47 |
Affiliation : |
Dprt of Psychopharmacology, Central Institute of Mental Health (CIMH), Univ. of Heidelberg, Mannheim 68159. Allemagne. Germany. |
Numéro Toxibase : | 208620 |
Centre Emetteur : | 02 Coordonnateur |
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