Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics

Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics

Microenvironmental conditions such as hypoxia potentiate the local invasion of malignant tumors including glioblastomas by modulating signal transduction and protein modification, yet the mechanism by which hypoxia controls cytoskeletal dynamics to promote the local invasion is not well defined. He...

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Main Authors: Atsushi Fujimura, Hiroyuki Michiue, Yan Cheng, Atsuhito Uneda, Yasunari Tani, Tei-ichi Nishiki, Tomotsugu Ichikawa, Fan-Yan Wei, Kazuhito Tomizawa, Hideki Matsui
Format: Article
Language:English
Published: Elsevier 2013-11-01
Series:Neoplasia: An International Journal for Oncology Research
Online Access:http://www.sciencedirect.com/science/article/pii/S1476558613800887
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spelling doaj-128e5ff93e3c4943ac9be0365cfb152f2020-11-25T00:01:22ZengElsevierNeoplasia: An International Journal for Oncology Research1476-55861522-80022013-11-0115111272128110.1593/neo.131440Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal DynamicsAtsushi Fujimura0Hiroyuki Michiue1Yan Cheng2Atsuhito Uneda3Yasunari Tani4Tei-ichi Nishiki5Tomotsugu Ichikawa6Fan-Yan Wei7Kazuhito Tomizawa8Hideki Matsui9Department of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, JapanDepartment of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, JapanDepartment of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, JapanDepartment of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, JapanDepartment of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, JapanDepartment of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, JapanDepartment of Neurosurgery, Okayama University Hospital, Okayama, JapanDepartment of Molecular Physiology, Faculty of Life Sciences, Kumamoto University, Kumamoto, JapanDepartment of Molecular Physiology, Faculty of Life Sciences, Kumamoto University, Kumamoto, JapanDepartment of Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, Japan Microenvironmental conditions such as hypoxia potentiate the local invasion of malignant tumors including glioblastomas by modulating signal transduction and protein modification, yet the mechanism by which hypoxia controls cytoskeletal dynamics to promote the local invasion is not well defined. Here, we show that cyclin G2 plays pivotal roles in the cytoskeletal dynamics in hypoxia-driven invasion by glioblastoma cells. Cyclin G2 is a hypoxia-induced and cytoskeleton-associated protein and is required for glioblastoma expansion. Mechanistically, cyclin G2 recruits cortactin to the juxtamembrane through its SH3 domain-binding motif and consequently promotes the restricted tyrosine phosphorylation of cortactin in concert with src. Moreover, cyclin G2 interacts with filamentous actin to facilitate the formation of membrane ruffles. In primary glioblastoma, cyclin G2 is abundantly expressed in severely hypoxic regions such as pseudopalisades, which consist of actively migrating glioma cells. Furthermore, we show the effectiveness of dasatinib against hypoxia-driven, cyclin G2-involved invasion in vitro and in vivo. Our findings elucidate the mechanism of cytoskeletal regulation by which severe hypoxia promotes the local invasion and may provide a therapeutic target in glioblastoma. http://www.sciencedirect.com/science/article/pii/S1476558613800887
collection DOAJ
language English
format Article
sources DOAJ
author Atsushi Fujimura
Hiroyuki Michiue
Yan Cheng
Atsuhito Uneda
Yasunari Tani
Tei-ichi Nishiki
Tomotsugu Ichikawa
Fan-Yan Wei
Kazuhito Tomizawa
Hideki Matsui
spellingShingle Atsushi Fujimura
Hiroyuki Michiue
Yan Cheng
Atsuhito Uneda
Yasunari Tani
Tei-ichi Nishiki
Tomotsugu Ichikawa
Fan-Yan Wei
Kazuhito Tomizawa
Hideki Matsui
Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics
Neoplasia: An International Journal for Oncology Research
author_facet Atsushi Fujimura
Hiroyuki Michiue
Yan Cheng
Atsuhito Uneda
Yasunari Tani
Tei-ichi Nishiki
Tomotsugu Ichikawa
Fan-Yan Wei
Kazuhito Tomizawa
Hideki Matsui
author_sort Atsushi Fujimura
title Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics
title_short Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics
title_full Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics
title_fullStr Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics
title_full_unstemmed Cyclin G2 Promotes Hypoxia- Driven Local Invasion of Glioblastoma by Orchestrating Cytoskeletal Dynamics
title_sort cyclin g2 promotes hypoxia- driven local invasion of glioblastoma by orchestrating cytoskeletal dynamics
publisher Elsevier
series Neoplasia: An International Journal for Oncology Research
issn 1476-5586
1522-8002
publishDate 2013-11-01
description Microenvironmental conditions such as hypoxia potentiate the local invasion of malignant tumors including glioblastomas by modulating signal transduction and protein modification, yet the mechanism by which hypoxia controls cytoskeletal dynamics to promote the local invasion is not well defined. Here, we show that cyclin G2 plays pivotal roles in the cytoskeletal dynamics in hypoxia-driven invasion by glioblastoma cells. Cyclin G2 is a hypoxia-induced and cytoskeleton-associated protein and is required for glioblastoma expansion. Mechanistically, cyclin G2 recruits cortactin to the juxtamembrane through its SH3 domain-binding motif and consequently promotes the restricted tyrosine phosphorylation of cortactin in concert with src. Moreover, cyclin G2 interacts with filamentous actin to facilitate the formation of membrane ruffles. In primary glioblastoma, cyclin G2 is abundantly expressed in severely hypoxic regions such as pseudopalisades, which consist of actively migrating glioma cells. Furthermore, we show the effectiveness of dasatinib against hypoxia-driven, cyclin G2-involved invasion in vitro and in vivo. Our findings elucidate the mechanism of cytoskeletal regulation by which severe hypoxia promotes the local invasion and may provide a therapeutic target in glioblastoma.
url http://www.sciencedirect.com/science/article/pii/S1476558613800887
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