EFFECTS OF THE ANTIPSYCHOTIC DRUG CHLORPROMAZINE ON D1/D5R CONSTITUTIVE ACTIVITY AND POSTSYNAPTIC CURRENTS IN PREFRONTAL CORTEX NEURONS.

MCCARTHY CLARA I.; EMILIO R. MUSTAFÁ; CORNEJO P; YANEFF, AGUSTÍN; RODRIGUEZ SILVIA S.; MARIO PERELLO; RAINGO JESICA

Virtual

Congreso; XXXVI Congreso Anual de la Sociedad Argentina de Investigación en Neurociencias; 2021

SAN

The dopamine receptor type 1 (D1R) and the dopamine receptor type 5 (D5R), which are often grouped as D1R-like due to their sequence and signaling similarities, exhibit high levels of constitutive activity. The molecular basis for this agonist-independent activation have been well characterized through biochemical and mutagenesis in vitro studies. In this regard, it was reported that many antipsychotic drugs act as inverse agonists of D1R-like constitutive activity. On the other hand, D1R is highly expressed in the medial prefrontal cortex (mPFC), a brain area with important functions such as working memory. Here, we studied the impact of D1R-like constitutive activity and chlorpromazine (CPZ), an antipsychotic drug and D1R-like inverse agonist, on various neuronal CaV conductances and we explored its effect on calcium-dependent neuronal functions in the mouse medial mPFC. Using ex vivo brain slices containing the mPFC and transfected HEK293T cells, we found that CPZ reduces CaV2.2 currents by occluding D1R-like constitutive activity, in agreement with a mechanism previously reported by our lab; whereas CPZ directly inhibits CaV1 currents in a D1R-like activity independent manner. In contrast, CPZ and D1R constitutive activity did not affect CaV2.1, CaV2.3 or CaV3 currents. Finally, we found that CPZ reduces excitatory postsynaptic responses in mPFC neurons. Our results contribute to understanding CPZ molecular targets in neurons and describe a novel physiological consequence of CPZ non-canonical action as a D1R-like inverse agonist in the mouse brain.