The membrane skeleton in neurons adopts a periodic lattice structure in which actin filaments, capped by adducin and tropomodulin, form ring-shaped structures connected by spectrin tetramers along neurites. This membrane-associated periodic skeleton (MPS) is important for many neuronal functions. Using live-cell super-resolution imaging, we found that the MPS is surprisingly dynamic, undergoing local disassembly and reformation constitutively in axons. MPS remodeling is driven by calcium signaling, leading to actin-ring destabilization through protein kinase C-mediated adducin phosphorylation and to spectrin degradation by calpain. Formin, an actin-nucleating and -polymerizing enzyme, plays a dual role in MPS remodeling and maintenance. MPS remodeling is enhanced by neuronal activity and functionally facilitates endocytosis. Our results highlight the importance of a dynamic membrane skeletal structure in neuronal function.
The membrane skeleton is constitutively remodeled in neurons by calcium signaling.
神经元中的细胞膜骨架通过钙信号进行持续重塑
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作者:Heller Evan, Kurup Naina, Zhuang Xiaowei
| 期刊: | Science | 影响因子: | 45.800 |
| 时间: | 2025 | 起止号: | 2025 Aug 7; 389(6760):eadn6712 |
| doi: | 10.1126/science.adn6712 | 研究方向: | 信号转导、神经科学、细胞生物学 |
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