Neuronal connectivity, behavioral, and transcriptional alterations associated with the loss of MARK2

神经科学 树突棘 神经传递 自闭症 生物 海马结构 突触可塑性 神经可塑性 海马体 兴奋性突触后电位 心理学 受体 精神科 遗传学 抑制性突触后电位
作者
Hanna O. Caiola,Qian Wu,Junlong Li,Xuefeng Wang,Shaili Soni,Kevin D. Monahan,George C. Wagner,Zhiping P. Pang,Huaye Zhang
出处
期刊:The FASEB Journal [Wiley]
卷期号:38 (20) 被引量:2
标识
DOI:10.1096/fj.202400454r
摘要

Abstract Neuronal connectivity is essential for adaptive brain responses and can be modulated by dendritic spine plasticity and the intrinsic excitability of individual neurons. Dysregulation of these processes can lead to aberrant neuronal activity, which has been associated with numerous neurological disorders including autism, epilepsy, and Alzheimer's disease. Nonetheless, the molecular mechanisms underlying abnormal neuronal connectivity remain unclear. We previously found that the serine/threonine kinase Microtubule Affinity Regulating Kinase 2 (MARK2), also known as Partitioning Defective 1b (Par1b), is important for the formation of dendritic spines in vitro. However, despite its genetic association with several neurological disorders, the in vivo impact of MARK2 on neuronal connectivity and cognitive functions remains unclear. Here, we demonstrate that the loss of MARK2 in vivo results in changes to dendritic spine morphology, which in turn leads to a decrease in excitatory synaptic transmission. Additionally, the loss of MARK2 produces substantial impairments in learning and memory, reduced anxiety, and defective social behavior. Notably, MARK2 deficiency results in heightened seizure susceptibility. Consistent with this observation, electrophysiological analysis of hippocampal slices indicates underlying neuronal hyperexcitability in MARK2‐deficient neurons. Finally, RNAseq analysis reveals transcriptional changes in genes regulating synaptic transmission and ion homeostasis. These results underscore the in vivo role of MARK2 in governing synaptic connectivity, neuronal excitability, and cognitive functions.

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