Literature DB >> 27805789

Culture on 3D Chitosan-Hyaluronic Acid Scaffolds Enhances Stem Cell Marker Expression and Drug Resistance in Human Glioblastoma Cancer Stem Cells.

Kui Wang1, Forrest M Kievit2, Ariane E Erickson1, John R Silber2, Richard G Ellenbogen2, Miqin Zhang1,2.   

Abstract

The lack of in vitro models that support the growth of glioblastoma (GBM) stem cells (GSCs) that underlie clinical aggressiveness hinders developing new, effective therapies for GBM. While orthotopic patient-derived xenograft models of GBM best reflect in vivo tumor behavior, establishing xenografts is a time consuming, costly, and frequently unsuccessful endeavor. To address these limitations, a 3D porous scaffold composed of chitosan and hyaluronic acid (CHA) is synthesized. Growth and expression of the cancer stem cell (CSC) phenotype of the GSC GBM6 taken directly from fresh xenogratfs grown on scaffolds or as adherent monolayers is compared. While 2D adherent cultures grow as monolayers of flat epitheliod cells, GBM6 cells proliferate within pores of CHA scaffolds as clusters of self-adherent ovoid cells. Growth on scaffolds is accompanied by greater expression of genes that mediate epithelial-mesenchymal transition and maintain a primitive, undifferentiated phenotype, hallmarks of CSCs. Scaffold-grown cells also display higher expression of genes that promote resistance to hypoxia-induced oxidative stress. In accord, scaffold-grown cells show markedly greater resistance to clinically utilized alkylating agents compared to adherent cells. These findings suggest that our CHA scaffolds better mimic in vivo biological and clinical behavior and provide insights for developing novel individualized treatments.
© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  chitosan; drug resistance; glioblastoma stem cell; hyaluronic acid; scaffold

Mesh:

Substances:

Year:  2016        PMID: 27805789      PMCID: PMC5253135          DOI: 10.1002/adhm.201600684

Source DB:  PubMed          Journal:  Adv Healthc Mater        ISSN: 2192-2640            Impact factor:   9.933


  45 in total

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Journal:  Neuro Oncol       Date:  2014-08-19       Impact factor: 12.300

2.  Porous chitosan-hyaluronic acid scaffolds as a mimic of glioblastoma microenvironment ECM.

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Journal:  Biomaterials       Date:  2013-09-26       Impact factor: 12.479

Review 3.  Therapeutic targeting of hypoxia and hypoxia-inducible factors in cancer.

Authors:  Caroline Wigerup; Sven Påhlman; Daniel Bexell
Journal:  Pharmacol Ther       Date:  2016-04-29       Impact factor: 12.310

Review 4.  Mechanisms of chemoresistance to alkylating agents in malignant glioma.

Authors:  Jann N Sarkaria; Gaspar J Kitange; C David James; Ruth Plummer; Hilary Calvert; Michael Weller; Wolfgang Wick
Journal:  Clin Cancer Res       Date:  2008-05-15       Impact factor: 12.531

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Authors:  Jamie I Fletcher; Michelle Haber; Michelle J Henderson; Murray D Norris
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Review 6.  Nuclear factor-κB in glioblastoma: insights into regulators and targeted therapy.

Authors:  Kirk E Cahill; Ramin A Morshed; Bakhtiar Yamini
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7.  O6-methylguanine-DNA methyltransferase activity is associated with response to alkylating agent therapy and with MGMT promoter methylation in glioblastoma and anaplastic glioma.

Authors:  Michael S Bobola; Mohammad Alnoor; John Y-S Chen; Douglas D Kolstoe; Daniel L Silbergeld; Robert C Rostomily; A Blank; Marc C Chamberlain; John R Silber
Journal:  BBA Clin       Date:  2015-06-01

8.  Accurate normalization of real-time quantitative RT-PCR data by geometric averaging of multiple internal control genes.

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9.  Role of receptor tyrosine kinases and their ligands in glioblastoma.

Authors:  Estefanía Carrasco-García; Miguel Saceda; Isabel Martínez-Lacaci
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10.  Epithelial-mesenchymal transition in glioblastoma progression.

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Journal:  Oncol Lett       Date:  2016-01-14       Impact factor: 2.967
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  17 in total

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2.  The Influence of Hyaluronic Acid and Glioblastoma Cell Coculture on the Formation of Endothelial Cell Networks in Gelatin Hydrogels.

Authors:  Mai T Ngo; Brendan A Harley
Journal:  Adv Healthc Mater       Date:  2017-09-22       Impact factor: 9.933

3.  Crosslinked Chitosan-PEG Hydrogel for Culture of Human Glioblastoma Cell Spheroids and Drug Screening.

Authors:  Fei-Chien Chang; Sheeny Lan Levengood; Nick Cho; Likai Chen; Everet Wang; John S Yu; Miqin Zhang
Journal:  Adv Ther (Weinh)       Date:  2018-08-13

4.  Fabrication and Characterization of Chitosan-Hyaluronic Acid Scaffolds with Varying Stiffness for Glioblastoma Cell Culture.

Authors:  Ariane E Erickson; Sheeny K Lan Levengood; Jialu Sun; Fei-Chien Chang; Miqin Zhang
Journal:  Adv Healthc Mater       Date:  2018-06-11       Impact factor: 9.933

5.  Effects of three-dimensional collagen scaffolds on the expression profiles and biological functions of glioma cells.

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Journal:  Int J Oncol       Date:  2018-03-20       Impact factor: 5.650

6.  Constitutive Activation of STAT3 in Myeloma Cells Cultured in a Three-Dimensional, Reconstructed Bone Marrow Model.

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Journal:  Cancers (Basel)       Date:  2018-06-16       Impact factor: 6.639

7.  Microenvironmental Rigidity of 3D Scaffolds and Influence on Glioblastoma Cells: A Biomaterial Design Perspective.

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Review 8.  Halfway between 2D and Animal Models: Are 3D Cultures the Ideal Tool to Study Cancer-Microenvironment Interactions?

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Review 9.  The viable circulating tumor cells with cancer stem cells feature, where is the way out?

Authors:  Y T Luo; J Cheng; X Feng; S J He; Y W Wang; Q Huang
Journal:  J Exp Clin Cancer Res       Date:  2018-02-26

10.  Polycaprolactone/Gelatin/Hyaluronic Acid Electrospun Scaffolds to Mimic Glioblastoma Extracellular Matrix.

Authors:  Semra Unal; Sema Arslan; Betul Karademir Yilmaz; Faik Nuzhet Oktar; Denisa Ficai; Anton Ficai; Oguzhan Gunduz
Journal:  Materials (Basel)       Date:  2020-06-11       Impact factor: 3.623
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