Male-Specific cAMP Signaling in the Hippocampus Controls Spatial Memory Deficits in a Mouse Model of Autism and Intellectual Disability

Male-Specific cAMP Signaling in the Hippocampus Controls Spatial Memory Deficits in a Mouse Model of Autism and Intellectual Disability

The prevalence of neurodevelopmental disorders is biased toward male individuals, with male-to-female ratios of 2:1 in intellectual disability and 4:1 in autism spectrum disorder. However, the molecular mechanisms of such bias remain unknown. While characterizing a mouse model for loss of the signal...

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Veröffentlicht in:Biological psychiatry (1969) 2019-05, Vol.85 (9), p.760-768
Hauptverfasser: Zamarbide, Marta, Mossa, Adele, Muñoz-Llancao, Pablo, Wilkinson, Molly K., Pond, Heather L., Oaks, Adam W., Manzini, M. Chiara
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Sprache:eng
Schlagworte:
Animals
Autism
Autistic Disorder - metabolism
Autistic Disorder - psychology
cAMP
Cyclic AMP - metabolism
Disease Models, Animal
Female
Hippocampus - metabolism
Intellectual disability
Intellectual Disability - metabolism
Intellectual Disability - psychology
Intracellular signaling
Learning and memory
Male
Mice, Inbred C57BL
Mice, Knockout
Repressor Proteins - genetics
Repressor Proteins - metabolism
Sex bias
Sex Characteristics
Signal Transduction
Spatial Memory - physiology
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container_end_page 768
container_issue 9
container_start_page 760
container_title Biological psychiatry (1969)
container_volume 85
creator Zamarbide, Marta
Mossa, Adele
Muñoz-Llancao, Pablo
Wilkinson, Molly K.
Pond, Heather L.
Oaks, Adam W.
Manzini, M. Chiara
description The prevalence of neurodevelopmental disorders is biased toward male individuals, with male-to-female ratios of 2:1 in intellectual disability and 4:1 in autism spectrum disorder. However, the molecular mechanisms of such bias remain unknown. While characterizing a mouse model for loss of the signaling scaffold coiled-coil and C2 domain-containing protein 1A (CC2D1A), which is mutated in intellectual disability and autism spectrum disorder, we identified biochemical and behavioral differences between male and female mice, and explored whether CC2D1A controls male-specific intracellular signaling. CC2D1A is known to regulate phosphodiesterase 4D (PDE4D), which regulates cyclic adenosine monophosphate (cAMP) signaling. We tested for activation of PDE4D and downstream signaling molecules in the hippocampus of Cc2d1a-deficient mice. We then performed behavioral studies in female mice to analyze learning and memory, and then targeted PDE4D activation with a PDE4D inhibitor to define how changes in cAMP levels affect behavior in male and female mice. We found that in Cc2d1a-deficient male mice PDE4D is hyperactive, leading to a reduction in cAMP response element binding protein signaling, but this molecular deficit is not present in female mice. Cc2d1a-deficient male mice show a deficit in spatial memory, which is not present in Cc2d1a-deficient female mice. Restoring PDE4D activity using an inhibitor rescues cognitive deficits in male mice but has no effect on female mice. Our findings show that CC2D1A regulates cAMP intracellular signaling in a male-specific manner in the hippocampus, leading to male-specific cognitive deficits. We propose that male-specific signaling mechanisms are involved in establishing sex bias in neurodevelopmental disorders.
doi_str_mv 10.1016/j.biopsych.2018.12.013
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We tested for activation of PDE4D and downstream signaling molecules in the hippocampus of Cc2d1a-deficient mice. We then performed behavioral studies in female mice to analyze learning and memory, and then targeted PDE4D activation with a PDE4D inhibitor to define how changes in cAMP levels affect behavior in male and female mice. We found that in Cc2d1a-deficient male mice PDE4D is hyperactive, leading to a reduction in cAMP response element binding protein signaling, but this molecular deficit is not present in female mice. Cc2d1a-deficient male mice show a deficit in spatial memory, which is not present in Cc2d1a-deficient female mice. Restoring PDE4D activity using an inhibitor rescues cognitive deficits in male mice but has no effect on female mice. Our findings show that CC2D1A regulates cAMP intracellular signaling in a male-specific manner in the hippocampus, leading to male-specific cognitive deficits. 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subjects Animals
Autism
Autistic Disorder - metabolism
Autistic Disorder - psychology
cAMP
Cyclic AMP - metabolism
Disease Models, Animal
Female
Hippocampus - metabolism
Intellectual disability
Intellectual Disability - metabolism
Intellectual Disability - psychology
Intracellular signaling
Learning and memory
Male
Mice, Inbred C57BL
Mice, Knockout
Repressor Proteins - genetics
Repressor Proteins - metabolism
Sex bias
Sex Characteristics
Signal Transduction
Spatial Memory - physiology
title Male-Specific cAMP Signaling in the Hippocampus Controls Spatial Memory Deficits in a Mouse Model of Autism and Intellectual Disability
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