Role of Collagen Matrix in Tumor Angiogenesis and Glioblastoma Multiforme Progression

Glioblastoma is a highly vascularized brain tumor, and antiangiogenic therapy improves its progression-free survival. However, current antiangiogenic therapy induces serious adverse effects including neuronal cytotoxicity and tumor invasiveness and resistance to therapy. Although it has been suggest...

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Veröffentlicht in:	The American journal of pathology 2013-10, Vol.183 (4), p.1293-1305
Hauptverfasser:	Mammoto, Tadanori, Jiang, Amanda, Jiang, Elisabeth, Panigrahy, Dipak, Kieran, Mark W, Mammoto, Akiko
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Sprache:	eng
Schlagworte:	Animals Brain - drug effects Brain - enzymology Brain - pathology Brain Neoplasms - blood supply Brain Neoplasms - enzymology Brain Neoplasms - metabolism Brain Neoplasms - pathology Cell Count Cell Line, Tumor Collagen - metabolism Disease Progression Glioblastoma - blood supply Glioblastoma - enzymology Glioblastoma - metabolism Glioblastoma - pathology Humans Mice Mice, Nude Neovascularization, Pathologic - drug therapy Neovascularization, Pathologic - metabolism Neovascularization, Pathologic - pathology Pathology Penicillamine - pharmacology Penicillamine - therapeutic use Protein-Lysine 6-Oxidase - metabolism Regular Stress, Mechanical Vascular Endothelial Growth Factor A - metabolism
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description	Glioblastoma is a highly vascularized brain tumor, and antiangiogenic therapy improves its progression-free survival. However, current antiangiogenic therapy induces serious adverse effects including neuronal cytotoxicity and tumor invasiveness and resistance to therapy. Although it has been suggested that the physical microenvironment has a key role in tumor angiogenesis and progression, the mechanism by which physical properties of extracellular matrix control tumor angiogenesis and glioblastoma progression is not completely understood. Herein we show that physical compaction (the process in which cells gather and pack together and cause associated changes in cell shape and size) of human glioblastoma cell lines U87MG, U251, and LN229 induces expression of collagen types IV and VI and the collagen crosslinking enzyme lysyl oxidase and up-regulates in vitro expression of the angiogenic factor vascular endothelial growth factor. The lysyl oxidase inhibitor β-aminopropionitrile disrupts collagen structure in the tumor and inhibits tumor angiogenesis and glioblastoma multiforme growth in a mouse orthotopic brain tumor model. Similarly, d -penicillamine, which inhibits lysyl oxidase enzymatic activity by depleting intracerebral copper, also exhibits antiangiogenic effects on brain tumor growth in mice. These findings suggest that tumor microenvironment controlled by collagen structure is important in tumor angiogenesis and brain tumor progression.
doi_str_mv	10.1016/j.ajpath.2013.06.026
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However, current antiangiogenic therapy induces serious adverse effects including neuronal cytotoxicity and tumor invasiveness and resistance to therapy. Although it has been suggested that the physical microenvironment has a key role in tumor angiogenesis and progression, the mechanism by which physical properties of extracellular matrix control tumor angiogenesis and glioblastoma progression is not completely understood. Herein we show that physical compaction (the process in which cells gather and pack together and cause associated changes in cell shape and size) of human glioblastoma cell lines U87MG, U251, and LN229 induces expression of collagen types IV and VI and the collagen crosslinking enzyme lysyl oxidase and up-regulates in vitro expression of the angiogenic factor vascular endothelial growth factor. The lysyl oxidase inhibitor β-aminopropionitrile disrupts collagen structure in the tumor and inhibits tumor angiogenesis and glioblastoma multiforme growth in a mouse orthotopic brain tumor model. Similarly, d -penicillamine, which inhibits lysyl oxidase enzymatic activity by depleting intracerebral copper, also exhibits antiangiogenic effects on brain tumor growth in mice. 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However, current antiangiogenic therapy induces serious adverse effects including neuronal cytotoxicity and tumor invasiveness and resistance to therapy. Although it has been suggested that the physical microenvironment has a key role in tumor angiogenesis and progression, the mechanism by which physical properties of extracellular matrix control tumor angiogenesis and glioblastoma progression is not completely understood. Herein we show that physical compaction (the process in which cells gather and pack together and cause associated changes in cell shape and size) of human glioblastoma cell lines U87MG, U251, and LN229 induces expression of collagen types IV and VI and the collagen crosslinking enzyme lysyl oxidase and up-regulates in vitro expression of the angiogenic factor vascular endothelial growth factor. The lysyl oxidase inhibitor β-aminopropionitrile disrupts collagen structure in the tumor and inhibits tumor angiogenesis and glioblastoma multiforme growth in a mouse orthotopic brain tumor model. Similarly, d -penicillamine, which inhibits lysyl oxidase enzymatic activity by depleting intracerebral copper, also exhibits antiangiogenic effects on brain tumor growth in mice. 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subjects	Animals Brain - drug effects Brain - enzymology Brain - pathology Brain Neoplasms - blood supply Brain Neoplasms - enzymology Brain Neoplasms - metabolism Brain Neoplasms - pathology Cell Count Cell Line, Tumor Collagen - metabolism Disease Progression Glioblastoma - blood supply Glioblastoma - enzymology Glioblastoma - metabolism Glioblastoma - pathology Humans Mice Mice, Nude Neovascularization, Pathologic - drug therapy Neovascularization, Pathologic - metabolism Neovascularization, Pathologic - pathology Pathology Penicillamine - pharmacology Penicillamine - therapeutic use Protein-Lysine 6-Oxidase - metabolism Regular Stress, Mechanical Vascular Endothelial Growth Factor A - metabolism
title	Role of Collagen Matrix in Tumor Angiogenesis and Glioblastoma Multiforme Progression
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