Article ; Online: A centronuclear myopathy-causing mutation in dynamin-2 disrupts neuronal morphology and excitatory synaptic transmission in a murine model of the disease.
Neuropathology and applied neurobiology
2023 Volume 49, Issue 4, Page(s) e12918
Abstract: Aims: Dynamin-2 is a large GTPase, a member of the dynamin superfamily that regulates membrane remodelling and cytoskeleton dynamics. Mutations in the dynamin-2 gene (DNM2) cause autosomal dominant centronuclear myopathy (CNM), a congenital ... ...
Abstract | Aims: Dynamin-2 is a large GTPase, a member of the dynamin superfamily that regulates membrane remodelling and cytoskeleton dynamics. Mutations in the dynamin-2 gene (DNM2) cause autosomal dominant centronuclear myopathy (CNM), a congenital neuromuscular disorder characterised by progressive weakness and atrophy of the skeletal muscles. Cognitive defects have been reported in some DNM2-linked CNM patients suggesting that these mutations can also affect the central nervous system (CNS). Here we studied how a dynamin-2 CNM-causing mutation influences the CNS function. Methods: Heterozygous mice harbouring the p.R465W mutation in the dynamin-2 gene (HTZ), the most common causing autosomal dominant CNM, were used as disease model. We evaluated dendritic arborisation and spine density in hippocampal cultured neurons, analysed excitatory synaptic transmission by electrophysiological field recordings in hippocampal slices, and evaluated cognitive function by performing behavioural tests. Results: HTZ hippocampal neurons exhibited reduced dendritic arborisation and lower spine density than WT neurons, which was reversed by transfecting an interference RNA against the dynamin-2 mutant allele. Additionally, HTZ mice showed defective hippocampal excitatory synaptic transmission and reduced recognition memory compared to the WT condition. Conclusion: Our findings suggest that the dynamin-2 p.R465W mutation perturbs the synaptic and cognitive function in a CNM mouse model and support the idea that this GTPase plays a key role in regulating neuronal morphology and excitatory synaptic transmission in the hippocampus. |
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MeSH term(s) | Animals ; Mice ; Disease Models, Animal ; Dynamin II/genetics ; Dynamin II/metabolism ; Muscle, Skeletal/metabolism ; Mutation ; Myopathies, Structural, Congenital/genetics ; Neurons/metabolism ; Synaptic Transmission | |||||
Chemical Substances | Dynamin II (EC 3.6.5.5) ; DNM2 protein, mouse (EC 3.6.5.5) | |||||
Language | English | |||||
Publishing date | 2023-04-16 | |||||
Publishing country | England | |||||
Document type | Journal Article ; Research Support, Non-U.S. Gov't | |||||
ZDB-ID | 80371-6 | |||||
ISSN | 1365-2990 ; 0305-1846 | |||||
ISSN (online) | 1365-2990 | |||||
ISSN | 0305-1846 | |||||
DOI | 10.1111/nan.12918 | |||||
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Database | MEDical Literature Analysis and Retrieval System OnLINE |
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