Foxp2 Is Required for Nucleus Accumbens-mediated Multifaceted Limbic Function.

The forkhead box protein P2 (Foxp2), initially identified for its role in speech and language development, plays an important role in neural development. Previous studies investigated the function of the Foxp2 gene by deleting or mutating Foxp2 from developmental stages. Little is known about its physiological function in adult brains. Although Foxp2 has been well studied in the dorsal striatum, its function in the nucleus accumbens (NAc) of the ventral striatum remains elusive. Here, we examine the physiological function of Foxp2 in NAc of mouse brains. We conditionally knocked out Foxp2 by microinjections of AAV-EGFP-Cre viruses into the medial shell of NAc of Foxp2 floxed (cKO) mice. Immunostaining showed increased c-Fos positive cells in cKO NAc at basal levels, suggesting an abnormality in Foxp2-deficient NAc cells. Unbiased behavioral profiling of Foxp2 cKO mice showed abnormalities in limbic-associated function. Foxp2 cKO mice exhibited abnormal social novelty without preference for interaction with strangers and familiar mice. In appetitive reward learning, Foxp2 cKO mice failed to learn the time expectancy of food delivery. In fear learning, Foxp2 cKO mice exhibited abnormal increases in freezing levels in response to tone paired with foot shock during fear conditioning. The extinction of the fear response was also altered in Foxp2 cKO mice. In contrast, conditional knockout of Foxp2 in NAc did not affect locomotion, motor coordination, thermal pain sensation, anxiety- and depression-like behaviors. Collectively, our study suggests that Foxp2 has a multifaceted physiological role in NAc in the regulation of limbic function in the adult brain.

Gender differences in the effects of presynaptic and postsynaptic dopamine agonists on latent inhibition in rats.

The present study investigated gender differences in the effects of presynaptic and postsynaptic DA agonists on latent inhibition in the passive avoidance paradigm. During the preexposure phase, 32 male and 32 female Wistar rats were exposed to a passive avoidance box (or a different context) and received drug injections in three trials: the control group received an injection of 10% ascorbic acid in a different context. The experimental groups received injections of 10% ascorbic acid (latent inhibition [LI] group), 1mg/kg of the postsynaptic DA D(1)/D(2) agonist apomorphine (APO group), and 1.5mg/kg of the presynaptic DA agonist methamphetamine (METH group) in a passive avoidance box. All experimental groups were placed in the light compartment of the passive avoidance box and were allowed to enter into the dark compartment to receive a footshock (1mA, 2s) in five trials over 5 days. The latency to enter into the dark compartment was recorded in these five trials. The latent inhibition occurred in the female LI group but not in the male LI group. Regardless of gender, the APO group exhibited an increase in latent inhibition. Male rats in the METH group exhibited a decrease in latent inhibition, but female rats in the METH group exhibited an increase in latent inhibition, indicating that the METH group exhibited sexual dimorphism. The gender factor interacted only with the METH group and not the LI or APO group. The present paper discusses whether gender, the postsynaptic DA D(1)/D(2) agonist APO, and presynaptic DA agonist METH may be related to schizophrenia.