Abstract
Phosphodiesterases (PDEs) are enzymes involved in the homeostasis of both cAMP and cGMP. They are members of a family of proteins that includes 11 subfamilies with different substrate specificities. Their main function is to catalyze the hydrolysis of cAMP, cGMP, or both. cAMP and cGMP are two key second messengers that modulate a wide array of intracellular processes and neurobehavioral functions, including memory and cognition. Even if these enzymes are present in all tissues, we focused on those PDEs that are expressed in the brain. We took into consideration genetic variants in patients affected by neurodevelopmental disorders, phenotypes of animal models, and pharmacological effects of PDE inhibitors, a class of drugs in rapid evolution and increasing application to brain disorders. Collectively, these data indicate the potential of PDE modulators to treat neurodevelopmental diseases characterized by learning and memory impairment, alteration of behaviors associated with depression, and deficits in social interaction. Indeed, clinical trials are in progress to treat patients with Alzheimer’s disease, schizophrenia, depression, and autism spectrum disorders. Among the most recent results, the application of some PDE inhibitors (PDE2A, PDE3, PDE4/4D, and PDE10A) to treat neurodevelopmental diseases, including autism spectrum disorders and intellectual disability, is a significant advance, since no specific therapies are available for these disorders that have a large prevalence. In addition, to highlight the role of several PDEs in normal and pathological neurodevelopment, we focused here on the deregulation of cAMP and/or cGMP in Down Syndrome, Fragile X Syndrome, Rett Syndrome, and intellectual disability associated with the CC2D1A gene.
Highlights
The family of phosphodiesterasesCyclic adenosine monophosphate and cyclic guanosine monophosphate are second messengers that regulate a variety of signaling pathways via direct interaction with cAMP-dependent protein kinase A (PKA) and cAMP-dependent protein kinase G (PKG), respectively [1]
Clinical trials have mostly addressed the treatment of AD [132] and schizophrenia [133], while two trials are in progress for a form of autism spectrum disorder (ASD) and only one for depression (Supplementary Table V)
We believe that understanding the role of PDE treatment in neurodevelopmental disorders, such as intellectual disability (ID), ASD, or both is a very important result obtained from recent studies
Summary
Cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP) are second messengers that regulate a variety of signaling pathways via direct interaction with cAMP-dependent protein kinase A (PKA) and cAMP-dependent protein kinase G (PKG), respectively [1]. In this study, the highest statistical significance was reached by SNP rs72962169 in the PDE2A gene for GWAS/Educational attainment as measured by the highest level of education achieved (Eduyears), conjoint analysis/Eduyears, and multi-trait analysis/Eduyears [25] Starting from this information, we considered here the genetic evidence in patients and in transgenic animals (See Supplementary Table IV) supporting the implication of PDEs in neurodevelopmental brain disorders. This information, together with reduced levels of cAMP reported in one of the most-widely used models of DS, the Ts65Dn mouse [112], pushed some authors to study the implication of PDE activity in the pathophysiology of DS. Rolipram rescued these cellular phenotypes as well as several behavioral phenotypes in female RTT mice [129]
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