CLASP1 and CLASP2 bind to EB1 and regulate microtubule plus-end dynamics at the cell cortex-Reference-Cited by-同舟云学术

CLASP1 and CLASP2 bind to EB1 and regulate microtubule plus-end dynamics at the cell cortex

Published:2005-01-03 Issue:1 Volume:168 Page:141-153
ISSN:1540-8140
Container-title:Journal of Cell Biology
language:en
Short-container-title:

Author:

Mimori-Kiyosue Yuko¹,Grigoriev Ilya²³,Lansbergen Gideon⁴,Sasaki Hiroyuki¹⁵,Matsui Chiyuki¹,Severin Fedor⁶,Galjart Niels⁴,Grosveld Frank⁴,Vorobjev Ivan³,Tsukita Shoichiro⁷⁸,Akhmanova Anna⁴

Affiliation:

1. KAN Research Institute, Kyoto Research Park, Shimogyo-ku, Kyoto 600-8815, Japan

2. Department of Cell Biology and Histology, A.N. Belozersky Institute, Moscow State University, Vorobjevi Gory, Moscow, 119992, Russia

3. Laboratory of Cell Motility, A.N. Belozersky Institute, Moscow State University, Vorobjevi Gory, Moscow, 119992, Russia

4. MGC Department of Cell Biology and Genetics, Erasmus Medical Center, 3000 DR Rotterdam, Netherlands

5. Institute of DNA Medicine, Jikei University School of Medicine, Minato-ku, Tokyo 105-8461, Japan

6. BIOTEC, TU Dresden, Proteomics and Cellular Machines, Tatzberg 47-51, 01307 Dresden, Germany

7. Department of Cell Biology, Faculty of Medicine, Kyoto University, Sakyo-ku, Kyoto 606-8315, Japan

8. Solution Oriented Research for Science and Technology, Japan Science and Technology Corporation, Sakyo-ku, Kyoto 606-8501, Japan

Abstract

CLIP-associating protein (CLASP) 1 and CLASP2 are mammalian microtubule (MT) plus-end binding proteins, which associate with CLIP-170 and CLIP-115. Using RNA interference in HeLa cells, we show that the two CLASPs play redundant roles in regulating the density, length distribution and stability of interphase MTs. In HeLa cells, both CLASPs concentrate on the distal MT ends in a narrow region at the cell margin. CLASPs stabilize MTs by promoting pauses and restricting MT growth and shortening episodes to this peripheral cell region. We demonstrate that the middle part of CLASPs binds directly to EB1 and to MTs. Furthermore, we show that the association of CLASP2 with the cell cortex is MT independent and relies on its COOH-terminal domain. Both EB1- and cortex-binding domains of CLASP are required to promote MT stability. We propose that CLASPs can mediate interactions between MT plus ends and the cell cortex and act as local rescue factors, possibly through forming a complex with EB1 at MT tips.

Publisher

Rockefeller University Press

Subject

Cell Biology

Link

http://rupress.org/jcb/article-pdf/168/1/141/1317700/jcb1681141.pdf

Reference34 articles.

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