Haploinsufficiency of PDE2A causes in mice increased exploratory behavior associated with upregulation of neural nitric oxide synthase in the striatum

Phosphodiesterase 2 A (PDE2A) function is stimulated by cGMP to catabolize cAMP. However, neurological and neurochemical effects of PDE2A deficiency are poorly understood. To address this gap, we studied behavioral characteristics and cerebral morpho-chemical changes of adult male heterozygous C57BL/6-PDE2A+/− (HET), and wild type C57BL/6-PDE2A+/+ (WT) mice. Behavioral functions of mice were evaluated by a wide test battery. HET mice exhibited greater tendency to explore novel environments in comparison to WT mice, but spatial working memory, anxiety, and sociability were similar in adult HET and WT mice. In HET mice, PDE2A mRNA, PDE2A protein expression, and cGMP hydrolyzing enzymatic activity were consistently reduced by about 50 %. Consequently, the cyclic nucleotide levels were significantly increased in HET mice, but unexpectedly the mean percentage variation was higher for cGMP equal to 153.23 %, and lower for cAMP equal to 16.41 %. Therefore, to try to explain the preponderant increase of cGMP to cAMP we evaluated other PDE enzymes functionally related to PDE2A. Surprisingly, results were quite contradictory: in HET mice protein levels of the other dual-specificity enzymes PDE3 and PDE10A were reduced, whereas the expressions of PDE5 and PDE9 that selectively hydrolyze cGMP were increased. Therefore, we investigated the involvement of neuronal nitric oxide synthase (nNOS) expression, as determinant of a possible increased synthesis of NO/cGMP signaling. Interestingly, in HET mice the expression level of brain nNOS, measured by western blot and immune-histochemistry was significantly increased, particularly in interneurons from the striatum. In conclusion, the deficiency of PDE2A could be compensated in the striatum by upregulating nNOS/NO/cGMP pathway, which in turn likely upregulates PDE2A-dependent cAMP hydrolysis. The neuroanatomical correlation between striatal nNOS upregulation and the behavioral phenotype of increased exploratory behavior in HET mice is advanced. •PDE2A+/− mice compensate for socio-cognitive deficits, but exhibit enhanced explorativity.•PDE2A+/− brains display a new homeostatic equilibrium of cAMP and cGMP.•The reduced expression of PDE2A is associated with morpho-chemical changes of nNOS interneurons.•The deficiency of PDE2A could be compensated by upregulating nNOS/NO/cGMP signal.