雄性特有的海马 cAMP 信号在自闭症和智力障碍的小鼠模型中控制空间记忆缺陷。

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

机构信息

Institute for Neuroscience and Department of Pharmacology and Physiology, George Washington University School of Medicine and Health Sciences, Washington, DC.

出版信息

Biol Psychiatry. 2019 May 1;85(9):760-768. doi: 10.1016/j.biopsych.2018.12.013. Epub 2018 Dec 27.

DOI:10.1016/j.biopsych.2018.12.013

PMID:30732858

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6474812/

Abstract

BACKGROUND

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.

METHODS

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.

RESULTS

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.

CONCLUSIONS

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.

摘要

背景

神经发育障碍的患病率偏向于男性个体，智力障碍的男女比例为 2:1，自闭症谱系障碍的男女比例为 4:1。然而，这种偏见的分子机制尚不清楚。在对信号支架卷曲螺旋和 C2 结构域蛋白 1A（CC2D1A）缺失的小鼠模型进行特征描述时，我们发现了雄性和雌性小鼠之间的生化和行为差异，并探讨了 CC2D1A 是否控制雄性特有的细胞内信号。

方法

已知 CC2D1A 调节磷酸二酯酶 4D（PDE4D），后者调节环腺苷酸单磷酸（cAMP）信号。我们测试了 CC2d1a 缺失小鼠海马体中 PDE4D 和下游信号分子的激活情况。然后，我们在雌性小鼠中进行行为研究，以分析学习和记忆，然后用 PDE4D 抑制剂靶向 PDE4D 激活，以确定 cAMP 水平的变化如何影响雄性和雌性小鼠的行为。

结果

我们发现，在 CC2d1a 缺失的雄性小鼠中，PDE4D 过度活跃，导致 cAMP 反应元件结合蛋白信号减少，但这种分子缺陷在雌性小鼠中不存在。CC2d1a 缺失的雄性小鼠表现出空间记忆缺陷，而 CC2d1a 缺失的雌性小鼠则没有。使用抑制剂恢复 PDE4D 活性可挽救雄性小鼠的认知缺陷，但对雌性小鼠没有影响。

结论

我们的研究结果表明，CC2D1A 以雄性特异性方式调节海马体中的 cAMP 细胞内信号，导致雄性特异性认知缺陷。我们提出，雄性特异性信号机制参与了神经发育障碍中性别偏见的建立。

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