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鉴定 AHF/trichohyalin 的 C 末端尾部结构域是调节角质形成细胞角蛋白丝状网格的关键部位。

Identification of the C-terminal tail domain of AHF/trichohyalin as the critical site for modulation of the keratin filamentous meshwork in the keratinocyte.

机构信息

Department of Bioscience, School of Science and Technology, Kwansei Gakuin University, Sanda, Japan.

出版信息

J Dermatol Sci. 2012 Feb;65(2):141-8. doi: 10.1016/j.jdermsci.2011.12.014. Epub 2011 Dec 29.

DOI:10.1016/j.jdermsci.2011.12.014
PMID:22261007
Abstract

BACKGROUND

AHF/trichohyalin is a large structural protein abundant in the inner root sheath (IRS) of anagenic hair follicles, which has been thought to mediate the keratin filamentous assembly. However, its functional mechanism is largely unknown.

OBJECTIVE

This study aimed at the identification of the key domain in AHF for keratin association and the establishment of a plausible mechanism for the modulation of the keratin meshwork.

METHODS

Several keratinocyte cell lines were introduced with the full length or several mutants of AHF, together with IRS-specific keratin krt31, and the profile of the AHF granules and the cellular behaviors were carefully analyzed.

RESULTS

Full length of AHF formed small round granules that clearly bound to and aligned on the exogenous keratin filaments in the keratinocytes, severely affected cellular growth, mobility and shape. Intriguingly, the removal of only 6 amino acids around the C-terminal tail of AHF resulted not only in the complete loss of its keratin adherent ability but also in a dramatic enlargement of the granules.

CONCLUSION

We propose a model for cytoskeletal modulation in the IRS of anagenic hair follicles: AHF latches onto the keratin bundles by its C-terminus and rearranges the keratin meshwork by intrinsic cohesive activity for the granule formation.

摘要

背景

AHF/trichohyalin 是一种丰富的毛发生长周期内根鞘(IRS)的大型结构蛋白,它被认为可以介导角蛋白丝状组装。然而,其功能机制在很大程度上尚不清楚。

目的

本研究旨在鉴定 AHF 中与角蛋白结合的关键结构域,并建立角蛋白网络调节的合理机制。

方法

将全长或几种突变体的 AHF 与 IRS 特异性角蛋白 krt31 一起引入几种角质形成细胞系,并仔细分析 AHF 颗粒的形态和细胞行为。

结果

全长 AHF 形成小而圆的颗粒,这些颗粒可与角质形成细胞中的外源角蛋白丝紧密结合并排列,严重影响细胞生长、迁移和形态。有趣的是,仅去除 AHF C 端尾部周围的 6 个氨基酸不仅完全丧失了其角蛋白黏附能力,而且颗粒明显增大。

结论

我们提出了一个毛发生长周期 IRS 中细胞骨架调节的模型:AHF 通过其 C 端与角蛋白束结合,并通过内在的内聚活性重新排列角蛋白网络以形成颗粒。

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