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PLoS One ; 6(9): e24261, 2011.
Artículo en Inglés | MEDLINE | ID: mdl-21912682

RESUMEN

BACKGROUND: DYT1 dystonia, a severe form of genetically determined human dystonia, exhibits reduced penetrance among carriers and begins usually during adolescence. The reasons for such age dependence and variability remain unclear. METHODS AND RESULTS: We characterized the alterations in D2 dopamine receptor (D2R) signalling in striatal cholinergic interneurons at different ages in mice overexpressing human mutant torsinA (hMT). An abnormal excitatory response to the D2R agonist quinpirole was recorded at postnatal day 14, consisting of a membrane depolarization coupled to an increase in spiking frequency, and persisted unchanged at 3 and 9 months in hMT mice, compared to mice expressing wild-type human torsinA and non-transgenic mice. This response was blocked by the D2R antagonist sulpiride and depended upon G-proteins, as it was prevented by intrapipette GDP-ß-S. Patch-clamp recordings from dissociated interneurons revealed a significant increase in the Cav2.2-mediated current fraction at all ages examined. Consistently, chelation of intracellular calcium abolished the paradoxical response to quinpirole. Finally, no gross morphological changes were observed during development. CONCLUSIONS: These results suggest that an imbalanced striatal dopaminergic/cholinergic signaling occurs early in DYT1 dystonia and persists along development, representing a susceptibility factor for symptom generation.


Asunto(s)
Acetilcolina/metabolismo , Distonía/metabolismo , Distonía/patología , Interneuronas/metabolismo , Neostriado/crecimiento & desarrollo , Neostriado/patología , Receptores de Dopamina D2/metabolismo , Animales , Calcio/metabolismo , Distonía/genética , Distonía/fisiopatología , Fenómenos Electrofisiológicos , Subunidades alfa de la Proteína de Unión al GTP Gi-Go/metabolismo , Humanos , Interneuronas/patología , Ratones , Chaperonas Moleculares/genética , Chaperonas Moleculares/metabolismo , Mutación , Receptor de Adenosina A2A/metabolismo , Transducción de Señal
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