An Akt/(beta)-Arrestin 2/PP2A Signaling Complex Mediates Dopaminergic Neurotransmission and Behavior

Dopamine plays an important role in the etiology of schizophrenia, and D2 class dopamine receptors are the best-established target of antipsychotic drugs. Here we show that D2 class-receptor-mediated Akt regulation involves the formation of signaling complexes containing (beta)-arrestin 2, PP2A, and Akt. (beta)-arrestin 2 deficiency in mice results in reduction of dopamine-dependent behaviors, loss of Akt regulation by dopamine in the striatum, and disruption of the dopamine-dependent interaction of Akt with its negative regulator, protein phosphatase 2A. Importantly, canonical cAMP-mediated dopamine-receptor signaling is not inhibited in the absence of (beta)-arrestin 2. These results demonstrate that, apart from its classical function in receptor desensitization, (beta)-arrestin 2 also acts as a signaling intermediate through a kinase/phosphatase scaffold. Furthermore, this function of (beta)-arrestin 2 is important for the expression of dopamine-associated behaviors, thus implicating (beta)-arrestin 2 as a positive mediator of dopaminergic synaptic transmission and a potential pharmacological target for dopamine-related psychiatric disorders.