Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability

Bertan Fabio; Wischhof Lena; Sosulina Liudmila; Mittag Manuel; Daluegge Dennis; Fornarelli Alessandra; Gardoni Fabrizio; Marcello Elena; Di Luca Monica; Fuhrmann Martin; Remy Stefan; Bano Daniele; Nicotera Pierluigi

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Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability

机译：雷马丁受体2的丧失损失树突刺的神经元活性依赖性重塑，并触发补偿性神经元过度尺寸

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Dendritic spines are postsynaptic domains that shape structural and functional properties of neurons. Upon neuronal activity, Ca(2+)transients trigger signaling cascades that determine the plastic remodeling of dendritic spines, which modulate learning and memory. Here, we study in mice the role of the intracellular Ca(2+)channel Ryanodine Receptor 2 (RyR2) in synaptic plasticity and memory formation. We demonstrate that loss of RyR2 in pyramidal neurons of the hippocampus impairs maintenance and activity-evoked structural plasticity of dendritic spines during memory acquisition. Furthermore, post-developmental deletion of RyR2 causes loss of excitatory synapses, dendritic sparsification, overcompensatory excitability, network hyperactivity and disruption of spatially tuned place cells. Altogether, our data underpin RyR2 as a link between spine remodeling, circuitry dysfunction and memory acquisition, which closely resemble pathological mechanisms observed in neurodegenerative disorders.

机译：树突棘是突触后结构域，塑造神经元的结构和功能特性。在神经元活动时，Ca（2+）瞬变触发信号级联，决定树突棘的可塑性重塑，从而调节学习和记忆。在这里，我们研究了小鼠细胞内钙通道Ryanodine受体2（RyR2）在突触可塑性和记忆形成中的作用。我们证明海马锥体神经元RyR2的缺失会损害记忆获得期间树突棘的维持和活动诱发的结构可塑性。此外，RyR2的发育后缺失会导致兴奋性突触丧失、树突稀疏化、过度补偿兴奋性、网络过度活跃和空间调谐细胞的破坏。总之，我们的数据支持RyR2作为脊柱重塑、回路功能障碍和记忆获得之间的联系，这与神经退行性疾病中观察到的病理机制非常相似。

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《Cell death and differentiation》 |2020年第12期|共20页
作者
Bertan Fabio; Wischhof Lena; Sosulina Liudmila; Mittag Manuel; Daluegge Dennis; Fornarelli Alessandra; Gardoni Fabrizio; Marcello Elena; Di Luca Monica; Fuhrmann Martin; Remy Stefan; Bano Daniele; Nicotera Pierluigi;
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German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

Univ Milan Dept Pharmacol &

Biomol Sci Milan Italy;

Univ Milan Dept Pharmacol &

Biomol Sci Milan Italy;

Univ Milan Dept Pharmacol &

Biomol Sci Milan Italy;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

German Ctr Neurodegenerat Dis DZNE Bonn Germany;

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正文语种 eng
中图分类细胞生物学;
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4. Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability (Jul, 10.1038/s41418-020-0584-2, 2020) [J] . Bertan Fabio, Wischhof Lena, Sosulina Liudmila, Cell death and differentiation . 2021,第3期

机译：瑞尼诺受体2的丧失损失树突刺的神经元活性依赖性重塑，并触发补偿性神经元过度尺寸（JUL，10.1038 / S41414-020-0584-2,2020）
5. Aluminum chloride induces neuroinflammation, loss of neuronal dendritic spine and cognition impairment in developing rat [J] . Cao Zheng, Yang Xu, Zhang Haiyang, Chemosphere . 2016,第May期

机译：氯化铝诱导发育中的大鼠发生神经炎症，神经元树突棘缺失和认知障碍
6. Dendritic spines, synaptic plasticity and neuronal survival: activity shapes dendritic spines to enhance neuronal viability. [J] . Segal M The European Journal of Neuroscience . 2010,第12期

机译：树突棘，突触可塑性和神经元存活：活动塑造树突棘以增强神经元活力。
7. Effects of astrocytic mechanisms on neuronal hyperexcitability [C] . Grigorovsky Vasily, Bardakjian Berj L. Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2014

机译：星形细胞机制对神经元过度兴奋的影响
8. Modulation of Klotho Affects Dendritic Spine Remodeling and Neuronal Network Activity [D] . Vo, Hai T. 2019

机译：Klotho的调制影响树突脊柱重塑和神经元网络活动
9. Correction: Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability [O] . Fabio Bertan, Lena Wischhof, Liudmila Sosulina, 2021

机译：校正：瑞尼诺受体2的损失损失树突刺的神经元活性依赖性重塑并触发补偿性神经元过度尺寸
10. Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability [O] . Fabio Bertan, Lena Wischhof, Liudmila Sosulina, 2020

机译：瑞尼诺受体2的丧失损失树突刺的神经元活性依赖性重塑，并触发补偿性神经元过度兴奋性
11. Acquisition and Loss of a Neuronal Ca(2+)/Calmodulin-Dependent Protein Kinaseduring Neuronal Differentiation [R] . Jensen, K. F., Ohmstede, C. A., Fisher, R. S., 1991

机译：获得和丧失神经元Ca（2 +）/钙调蛋白依赖性蛋白激活神经元分化

Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability

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