Literature DB >> 19628020

Effects of simulated microgravity on proliferation and chemosensitivity in malignant glioma cells.

Masaaki Takeda1, Takuro Magaki, Takahito Okazaki, Yumi Kawahara, Tomotaka Manabe, Louis Yuge, Kaoru Kurisu.   

Abstract

A three-dimensional (3D) clinostat is a device for generating multidirectional G force, resulting in an environment with an average of 10(-3)G. We cultured human malignant glioma cell lines in a 3D-clinostat (CL group) and examined the growth properties and chemosensitivity of the cells compared to cells cultured under normal 1G conditions (C group). The growth rate was significantly inhibited in the CL group, but without cell cycle change. Mitochondrial activity was also inhibited in the CL group. Thus, inhibition of malignant glioma proliferation occurred that could be attributed to deceleration of mitosis. Chemosensitivity to cisplatin (cis-diamminedichloroplatinum(II), CDDP) in the CL group was significantly enhanced compared to the C group. This method has significant potential as a treatment of malignant gliomas and a tool for understanding developmental biology.

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Year:  2009        PMID: 19628020     DOI: 10.1016/j.neulet.2009.07.045

Source DB:  PubMed          Journal:  Neurosci Lett        ISSN: 0304-3940            Impact factor:   3.046


  16 in total

1.  The influence of simulated microgravity on proliferation and apoptosis in U251 glioma cells.

Authors:  Jiao Zhao; He Ma; Leitao Wu; Liang Cao; Qianqian Yang; Haijun Dong; Zongren Wang; Jing Ma; Zhen Li
Journal:  In Vitro Cell Dev Biol Anim       Date:  2017-07-13       Impact factor: 2.416

2.  Time-averaged simulated microgravity (taSMG) inhibits proliferation of lymphoma cells, L-540 and HDLM-2, using a 3D clinostat.

Authors:  Yoon Jae Kim; Ae Jin Jeong; Myungjoon Kim; Chiwon Lee; Sang-Kyu Ye; Sungwan Kim
Journal:  Biomed Eng Online       Date:  2017-04-20       Impact factor: 2.819

3.  Proteomic Analysis of Extracellular Vesicles Derived from MDA-MB-231 Cells in Microgravity.

Authors:  Yundi Chen; Fei Xue; Andrea Russo; Yuan Wan
Journal:  Protein J       Date:  2021-01-02       Impact factor: 2.371

Review 4.  Using space-based investigations to inform cancer research on Earth.

Authors:  Jeanne L Becker; Glauco R Souza
Journal:  Nat Rev Cancer       Date:  2013-04-12       Impact factor: 60.716

5.  Simulated microgravity alters the metastatic potential of a human lung adenocarcinoma cell line.

Authors:  De Chang; Huiwen Xu; Yinghua Guo; Xuege Jiang; Yan Liu; Kailong Li; Chunxiao Pan; Ming Yuan; Junfeng Wang; Tianzhi Li; Changting Liu
Journal:  In Vitro Cell Dev Biol Anim       Date:  2013-02-13       Impact factor: 2.416

6.  Study of Rotary Cell Culture System-Induced Microgravity Effects on Cancer Biomarkers.

Authors:  Ragini Singh; Rana P Singh
Journal:  Methods Mol Biol       Date:  2022

7.  Effects of simulated microgravity on embryonic stem cells.

Authors:  Yulan Wang; Lili An; Yuanda Jiang; Haiying Hang
Journal:  PLoS One       Date:  2011-12-21       Impact factor: 3.240

8.  Simulated microgravity facilitates cell migration and neuroprotection after bone marrow stromal cell transplantation in spinal cord injury.

Authors:  Takafumi Mitsuhara; Masaaki Takeda; Satoshi Yamaguchi; Tomotaka Manabe; Masaya Matsumoto; Yumi Kawahara; Louis Yuge; Kaoru Kurisu
Journal:  Stem Cell Res Ther       Date:  2013-04-01       Impact factor: 6.832

9.  Hypergravity stimulation enhances PC12 neuron-like cell differentiation.

Authors:  Giada Graziana Genchi; Francesca Cialdai; Monica Monici; Barbara Mazzolai; Virgilio Mattoli; Gianni Ciofani
Journal:  Biomed Res Int       Date:  2015-02-16       Impact factor: 3.411

10.  Simulated microgravity induces nuclear translocation of Bax and BCL-2 in glial cultured C6 cells.

Authors:  Tommaso Bonfiglio; Federico Biggi; Anna Maria Bassi; Sara Ferrando; Lorenzo Gallus; Fabrizio Loiacono; Silvia Ravera; Marino Rottigni; Sonia Scarfì; Felice Strollo; Stefania Vernazza; Maurizio Sabbatini; Maria A Masini
Journal:  Heliyon       Date:  2019-06-14
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