Enhanced hippocampal LTP but normal NMDA receptor and AMPA receptor function in a rat model of CDKL5 deficiency disorder.

IF 6.3 1区 医学 Q1 GENETICS & HEREDITY Molecular Autism Pub Date : 2024-06-14 DOI:10.1186/s13229-024-00601-9
Laura Simões de Oliveira, Heather E O'Leary, Sarfaraz Nawaz, Rita Loureiro, Elizabeth C Davenport, Paul Baxter, Susana R Louros, Owen Dando, Emma Perkins, Julien Peltier, Matthias Trost, Emily K Osterweil, Giles E Hardingham, Michael A Cousin, Sumantra Chattarji, Sam A Booker, Tim A Benke, David J A Wyllie, Peter C Kind
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Abstract

Background: Mutations in the X-linked gene cyclin-dependent kinase-like 5 (CDKL5) cause a severe neurological disorder characterised by early-onset epileptic seizures, autism and intellectual disability (ID). Impaired hippocampal function has been implicated in other models of monogenic forms of autism spectrum disorders and ID and is often linked to epilepsy and behavioural abnormalities. Many individuals with CDKL5 deficiency disorder (CDD) have null mutations and complete loss of CDKL5 protein, therefore in the current study we used a Cdkl5-/y rat model to elucidate the impact of CDKL5 loss on cellular excitability and synaptic function of CA1 pyramidal cells (PCs). We hypothesised abnormal pre and/or post synaptic function and plasticity would be observed in the hippocampus of Cdkl5-/y rats.

Methods: To allow cross-species comparisons of phenotypes associated with the loss of CDKL5, we generated a loss of function mutation in exon 8 of the rat Cdkl5 gene and assessed the impact of the loss of CDLK5 using a combination of extracellular and whole-cell electrophysiological recordings, biochemistry, and histology.

Results: Our results indicate that CA1 hippocampal long-term potentiation (LTP) is enhanced in slices prepared from juvenile, but not adult, Cdkl5-/y rats. Enhanced LTP does not result from changes in NMDA receptor function or subunit expression as these remain unaltered throughout development. Furthermore, Ca2+ permeable AMPA receptor mediated currents are unchanged in Cdkl5-/y rats. We observe reduced mEPSC frequency accompanied by increased spine density in basal dendrites of CA1 PCs, however we find no evidence supporting an increase in silent synapses when assessed using a minimal stimulation protocol in slices. Additionally, we found no change in paired-pulse ratio, consistent with normal release probability at Schaffer collateral to CA1 PC synapses.

Conclusions: Our data indicate a role for CDKL5 in hippocampal synaptic function and raise the possibility that altered intracellular signalling rather than synaptic deficits contribute to the altered plasticity.

Limitations: This study has focussed on the electrophysiological and anatomical properties of hippocampal CA1 PCs across early postnatal development. Studies involving other brain regions, older animals and behavioural phenotypes associated with the loss of CDKL5 are needed to understand the pathophysiology of CDD.

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在 CDKL5 缺乏症大鼠模型中,海马 LTP 增强,但 NMDA 受体和 AMPA 受体功能正常。
背景:X 连锁基因细胞周期蛋白依赖性激酶样 5(CDKL5)的突变会导致一种严重的神经系统疾病,其特征是早发性癫痫发作、自闭症和智力障碍(ID)。海马功能受损与自闭症谱系障碍和智障的其他单基因模型有关,并且通常与癫痫和行为异常有关。许多 CDKL5 缺乏症(CDD)患者都存在 CDKL5 蛋白质的空突变和完全缺失,因此在本研究中,我们使用 Cdkl5-/y 大鼠模型来阐明 CDKL5 缺失对 CA1 锥体细胞(PC)的细胞兴奋性和突触功能的影响。我们假设在 Cdkl5-/y 大鼠的海马中会观察到异常的突触前和/或突触后功能和可塑性:为了对 CDKL5 缺失导致的表型进行跨物种比较,我们在大鼠 Cdkl5 基因第 8 号外显子上产生了一个功能缺失突变,并结合细胞外和全细胞电生理记录、生物化学和组织学方法评估了 CDLK5 缺失的影响:结果:我们的研究结果表明,Cdkl5-/y大鼠幼年期的CA1海马长期电位(LTP)增强,而成年大鼠则没有。LTP的增强并不是NMDA受体功能或亚基表达变化的结果,因为这些受体在整个发育过程中都没有发生变化。此外,Cdkl5-/y 大鼠的 Ca2+ 可渗透 AMPA 受体介导的电流没有变化。我们观察到 mEPSC 频率降低,同时 CA1 PC 基底树突的棘突密度增加,但在切片中使用最小刺激方案进行评估时,我们没有发现支持无声突触增加的证据。此外,我们还发现成对脉冲比率没有变化,这与沙弗侧突到 CA1 PC 突触的正常释放概率一致:我们的数据表明 CDKL5 在海马突触功能中的作用,并提出了细胞内信号改变而非突触缺陷导致可塑性改变的可能性:本研究的重点是海马CA1 PCs在出生后早期发育过程中的电生理学和解剖学特性。要了解CDD的病理生理学,还需要对其他脑区、年龄较大的动物以及与CDKL5缺失相关的行为表型进行研究。
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来源期刊
Molecular Autism
Molecular Autism GENETICS & HEREDITY-NEUROSCIENCES
CiteScore
12.10
自引率
1.60%
发文量
44
审稿时长
17 weeks
期刊介绍: Molecular Autism is a peer-reviewed, open access journal that publishes high-quality basic, translational and clinical research that has relevance to the etiology, pathobiology, or treatment of autism and related neurodevelopmental conditions. Research that includes integration across levels is encouraged. Molecular Autism publishes empirical studies, reviews, and brief communications.
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