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KIF19A is a Microtubule-depolymerizing Kinesin for Ciliary Length Control

Overview
Journal Dev Cell
Publisher Cell Press
Specialties Cell Biology
Reproductive Medicine
Date 2012 Nov 22
PMID 23168168
Citations 79
Authors
Shinsuke Niwa
Kazuo Nakajima
Harukata Miki
Yusuke Minato
Doudou Wang
Nobutaka Hirokawa
Affiliations
Soon will be listed here.
Abstract

Cilia control homeostasis of the mammalian body by generating fluid flow. It has long been assumed that ciliary length-control mechanisms are essential for proper flow generation, because fluid flow generation is a function of ciliary length. However, the molecular mechanisms of ciliary length control in mammals remain elusive. Here, we suggest that KIF19A, a member of the kinesin superfamily, regulates ciliary length by depolymerizing microtubules at the tips of cilia. Kif19a(-/-) mice displayed hydrocephalus and female infertility phenotypes due to abnormally elongated cilia that cannot generate proper fluid flow. KIF19A localized to cilia tips, and recombinant KIF19A controlled the length of microtubules polymerized from axonemes in vitro. KIF19A had ATP-dependent microtubule-depolymerizing activity mainly at the plus end of microtubules. Our results indicated a molecular mechanism of ciliary length regulation in mammals, which plays an important role in the maintenance of the mammalian body.

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