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ID 50625
FullText URL
Author
Maruo, Tomoko
Ichikawa, Tomotsugu Kaken ID publons researchmap
Kanzaki, Hirotaka
Inoue, Satoshi
Onishi, Manabu
Yoshida, Koichi
Kambara, Hirokazu
Shimizu, Kenji
Tamaru, Seiji
Chiocca, E. Antonio
Abstract
One of the insidious biological features of gliomas is their potential to extensively invade normal brain tissue, yet molecular mechanisms that dictate this locally invasive behavior remain poorly understood. To investigate the molecular basis of invasion by malignant gliomas, proteomic analysis was performed using a pair of canine glioma subclones - J3T-1 and J3T-2 - that show different invasion phenotypes in rat brains but have similar genetic backgrounds. Two-dimensional protein electrophoresis of whole-cell lysates of J3T-1 (angiogenesis-dependent invasion phenotype) and J3T-2 (angiogenesis-independent invasion phenotype) was performed. Twenty-two distinct spots were recognized when significant alteration was defined as more than 1.5-fold change in spot intensity between J3T-1 and J3T-2. Four proteins that demonstrated increased expression in J3T-1, and 14 proteins that demonstrated increased expression in J3T-2 were identified using liquid chromatography-mass spectrometry analysis. One of the proteins identified was annexin A2, which was expressed at higher levels in J3T-1 than in J3T-2. The higher expression of annexin A2 in J3T-1 was corroborated by quantitative RT-PCR of the cultured cells and immunohistochemical staining of the rat brain tumors. Moreover, immunohistochemical analysis of human glioblastoma specimens showed that annexin A2 was expressed at high levels in the tumor cells that formed clusters around dilated vessels. These results reveal differences in the proteomic profiles between these two cell lines that might correlate with their different invasion profiles. Thus, annexin A2 may be related to angiogenesis-dependent invasion.
Keywords
angiogenesis
annexin A2
glioma
invasion
proteomics
Published Date
2013-06
Publication Title
Neuropathology
Volume
volume33
Issue
issue3
Publisher
Wiley-Blackwell
Start Page
264
End Page
275
ISSN
0919-6544
Content Type
Journal Article
Official Url
http://dx.doi.org/10.1111/j.1440-1789.2012.01361.x
Related Url
http://ousar.lib.okayama-u.ac.jp/metadata/50652
language
English
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author
Refereed
True
DOI
Web of Science KeyUT