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Szulczyk, Bartlomiej; Książek, Aneta; Ładno, Wioleta; Szulczyk, Pawel
Acta neurobiologiae experimentalis, 01/2012, Letnik: 72, Številka: 4Journal Article
Impaired working memory is a common feature of neuropsychiatric disorders. It is dependent on control of the medial prefrontal cortex (mPFC) neurons by dopamine. The purpose of this study was to test the effects of a D1/5-type dopamine receptor agonist (SKF 38393, 10 microM) on the membrane potential and on voltage-dependent fast-inactivating Na+ currents in mPFC pyramidal neurons obtained from adult (9-week-old) rats. Treatment of the pyramidal neurons with SKF 38393 did not affect the membrane potential recorded with the perforated-patch method. When recordings were performed in cellattached configuration, the application of SKF 38393 did not change the Na+ current amplitude and shifted the currentvoltage relationship of the Na+ currents towards hyperpolarisation, thus resulting in an increase of the current amplitudes in response to suprathreshold depolarisations. Pretreatment of the cells with a D1/5 receptor antagonist (SCH 23390, 10 microM) abolished the effect of the D1/5-type receptors on Na+ currents. The effect of the D1/5 agonist was replicated by treating the cells with a membrane-permeable analogue, cAMP (8-bromo-cAMP, 100 microM), and the effect was blocked by treating the cells with a protein kinase A inhibitor, (H-89, 2 microM). In recordings performed from mechanically and enzymatically dispersed pyramidal neurons in the whole-cell configuration, when the cell interior was dialysed with pipette solution, application of the D1/5 agonist decreased the Na+ current amplitude without changing the current-voltage relationship. We conclude that in the mPFC pyramidal neurons in slices with an intact intracellular environment (recordings in the cell-attached configuration), the activation of D1/5 dopamine receptors increases the fast-inactivating Na+ current availability in response to suprathreshold depolarisations. The maximum Na+ current amplitude was not changed. A cAMP/protein kinase A pathway was responsible for the signal transduction from the D1/5 dopamine receptors to the Na+ channels.
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