小型热休克蛋白与神经丝杠(NFL)轻组分的相互作用。

Cell Stress and Chaperones Pub Date : 2017-07-01 Epub Date: 2016-12-20 DOI:10.1007/s12192-016-0757-6
Victoria V Nefedova, Maria V Sudnitsyna, Nikolai B Gusev
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引用次数: 0

摘要

通过差速离心法、分析超速离心法和荧光光谱法分析了人类小热休克蛋白HspB1、其与远端遗传性运动神经病变相关的点突变体以及其他三种小热休克蛋白(HspB5、HspB6和HspB8)与神经丝蛋白(NFL)轻组分的相互作用。野生型 HspB1 降低了低速和高速离心后得到的颗粒中 NFL 的数量,增加了高速离心后上清液中残留的 NFL 数量。高速离心后在 NFL 的沉淀中检测到部分 HspB1,饱和时每 2 摩尔 NFL 结合 1 摩尔 HspB1 单体。与远端遗传性运动神经病变相关的 HspB1 点突变体(G84R、L99M、R140G、K141Q 和 P182S)在调节 NFL 组装方面与野生型 HspB1 几乎同样有效。在低离子强度下,HspB1 与 NFL 四聚体的相互作用较弱,而在盐诱导 NFL 聚合时,这种相互作用增强。HspB1 和 HspB5(αB-结晶素)降低了荧光光谱法测量的 NFL 聚合速度。在调节 NFL 组装方面,HspB6(Hsp20)和 HspB8(Hsp22)不如 HspB1(或 HspB5)有效。本文提供的数据表明,小型热休克蛋白会影响 NFL 从四聚体到丝状体的转变、丝状体的流体动力学特性及其捆绑,因此可能会调节神经元中中间丝网络的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interaction of small heat shock proteins with light component of neurofilaments (NFL).

The interaction of human small heat shock protein HspB1, its point mutants associated with distal hereditary motor neuropathy, and three other small heat shock proteins (HspB5, HspB6, HspB8) with the light component of neurofilaments (NFL) was analyzed by differential centrifugation, analytical ultracentrifugation, and fluorescent spectroscopy. The wild-type HspB1 decreased the quantity of NFL in pellets obtained after low- and high-speed centrifugation and increased the quantity of NFL remaining in the supernatant after high-speed centrifugation. Part of HspB1 was detected in the pellet of NFL after high-speed centrifugation, and at saturation, 1 mol of HspB1 monomer was bound per 2 mol of NFL. Point mutants of HspB1 associated with distal hereditary motor neuropathy (G84R, L99M, R140G, K141Q, and P182S) were almost as effective as the wild-type HspB1 in modulation of NFL assembly. At low ionic strength, HspB1 weakly interacted with NFL tetramers, and this interaction was increased upon salt-induced polymerization of NFL. HspB1 and HspB5 (αB-crystallin) decreased the rate of NFL polymerization measured by fluorescent spectroscopy. HspB6 (Hsp20) and HspB8 (Hsp22) were less effective than HspB1 (or HspB5) in modulation of NFL assembly. The data presented indicate that the small heat shock proteins affect NFL transition from tetramers to filaments, hydrodynamic properties of filaments, and their bundling and therefore probably modulate the formation of intermediate filament networks in neurons.

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