Institute of Basic Medical Sciences.
Department of Pharmacology, and.
J Neurosci. 2019 Jun 19;39(25):4959-4975. doi: 10.1523/JNEUROSCI.2395-18.2019. Epub 2019 Apr 16.
Coiled-coil and C2 domain containing 1A (CC2D1A) is an evolutionarily conserved protein, originally identified as a nuclear factor-κB activator through a large-scale screen of human genes. Mutations in the human gene result in autosomal recessive nonsyndromic intellectual disability. It remains unclear, however, how mutation leads to alterations in brain function. Here, we have taken advantage of Cre/loxP recombinase-based strategy to conditionally delete exclusively from excitatory neurons of male mouse forebrain to examine its role in hippocampal synaptic plasticity and cognitive function. We confirmed the expression of CC2D1A protein and mRNA in the mouse hippocampus. Double immunofluorescence staining showed that CC2D1A is expressed in both excitatory and inhibitory neurons of the adult hippocampus. Conditional deletion of (cKO) from excitatory neurons leads to impaired performance in object location memory test and altered anxiety-like behavior. Consistently, cKO mice displayed a deficit in the maintenance of LTP in the CA1 region of hippocampal slices. deletion also resulted in decreased complexity of apical and basal dendritic arbors of CA1 pyramidal neurons. An enhanced basal Rac1 activity was observed following deletion, and this enhancement was mediated by reduced SUMO-specific protease 1 (SENP1) and SENP3 expression, thus increasing the amount of Rac1 SUMOylation. Furthermore, partial blockade of Rac1 activity rescued impairments in LTP and object location memory performance in cKO mice. Together, our results implicate Rac1 hyperactivity in synaptic plasticity and cognitive deficits observed in cKO mice and reveal a novel role for CC2D1A in regulating hippocampal synaptic function. CC2D1A is abundantly expressed in the brain, but there is little known about its physiological function. Taking advantage of cKO mice, the present study highlights the importance of CC2D1A in the maintenance of LTP at Schaffer collateral-CA1 synapses and the formation of hippocampus-dependent long-term object location memory. Our findings establish a critical link between elevated Rac1 activity, structural and synaptic plasticity alterations, and cognitive impairment caused by deletion. Moreover, partial blockade of Rac1 activity rescues synaptic plasticity and memory deficits in cKO mice. Such insights may have implications for the utility of Rac1 inhibitors in the treatment of intellectual disability caused by mutations in human patients.
卷曲螺旋和 C2 结构域蛋白 1A(CC2D1A)是一种进化上保守的蛋白质,最初通过大规模筛选人类基因被鉴定为核因子-κB 激活物。人类 基因的突变导致常染色体隐性非综合征性智力障碍。然而,目前尚不清楚 突变如何导致大脑功能的改变。在这里,我们利用 Cre/loxP 重组酶策略,有条件地从雄性小鼠前脑兴奋性神经元中特异性删除 ,以研究其在海马突触可塑性和认知功能中的作用。我们证实了 CC2D1A 蛋白和 mRNA 在小鼠海马中的表达。双重免疫荧光染色显示,CC2D1A 表达于成年海马的兴奋性和抑制性神经元中。从兴奋性神经元中条件性删除 (cKO)导致物体位置记忆测试表现受损和焦虑样行为改变。一致地,cKO 小鼠在海马切片 CA1 区的长时程增强(LTP)维持中表现出缺陷。 缺失也导致 CA1 锥体神经元的树突棘复杂度降低。在 缺失后观察到基底 Rac1 活性增强,这种增强是由 SUMO 特异性蛋白酶 1(SENP1)和 SENP3 表达减少介导的,从而增加了 Rac1 的 SUMO 化量。此外,Rac1 活性的部分阻断挽救了 cKO 小鼠在 LTP 和物体位置记忆表现中的损伤。总之,我们的结果表明 Rac1 活性过度活跃与 cKO 小鼠中观察到的突触可塑性和认知缺陷有关,并揭示了 CC2D1A 在调节海马突触功能中的新作用。CC2D1A 在大脑中大量表达,但对其生理功能知之甚少。利用 cKO 小鼠,本研究强调了 CC2D1A 在维持 Schaffer 侧支-CA1 突触的 LTP 和形成海马依赖性长期物体位置记忆中的重要性。我们的发现建立了 Rac1 活性升高、结构和突触可塑性改变与 缺失引起的认知障碍之间的重要联系。此外,Rac1 活性的部分阻断挽救了 cKO 小鼠的突触可塑性和记忆缺陷。这些发现可能对 Rac1 抑制剂在治疗人类患者中由 突变引起的智力障碍的应用具有启示意义。
