The high and middle molecular weight neurofilament subunits regulate the association of neurofilaments with kinesin: Inhibition by phosphorylation of the high molecular weight subunit

Molecular Brain Research Pub Date : 2005-11-30 DOI:10.1016/j.molbrainres.2005.08.009

Cheolwha Jung , Sangmook Lee , Daniela Ortiz , Qinzhang Zhu , Jean-Pierre Julien , Thomas B. Shea

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引用次数: 59

Abstract

Kinesin participates in axonal transport of neurofilaments (NFs), but the mode by which they attach to kinesin is unclear. We compared the association of NFs with kinesin in mice expressing or lacking NF-H or NF-M. In normal and M−/− mice, the leading edge of metabolically labeled NF subunits was selectively co-precipitated with kinesin. By contrast, the entire wave of radiolabeled subunits co-precipitated with kinesin in H−/− mice. Similar bulk levels of NFs co-precipitated with kinesin from normal and H−/− mice, but reduced levels co-precipitated from M−/− mice. These data suggest that both NF-H and NF-M regulate the association of NFs with kinesin. They further indicate that phosphorylation of NF-H dissociates NFs from kinesin and provides a mechanism by which NF-H phosphorylation can contribute to the slowing of NF axonal transport.

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高分子量和中等分子量的神经丝亚基调节神经丝与激酶的关联:高分子量亚基的磷酸化抑制

肌动蛋白参与神经丝的轴突运输，但它们附着于肌动蛋白的方式尚不清楚。我们比较了nf与运动蛋白在表达或缺乏NF-H或NF-M小鼠中的相关性。在正常小鼠和M - / -小鼠中，代谢标记的NF亚基的前缘与运动蛋白选择性共沉淀。相比之下，在H−/−小鼠中，整个放射性标记亚基波与运动蛋白共沉淀。在正常小鼠和H - / -小鼠中，nf与运动蛋白共沉淀的量相似，但在M - / -小鼠中，nf与运动蛋白共沉淀的量减少。这些数据表明NF-H和NF-M都调节nf与激酶的结合。他们进一步指出，NF- h的磷酸化使NF与激酶分离，并提供了NF- h磷酸化有助于减缓NF轴突转运的机制。

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Molecular Brain Research

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