Interstitial Flow in a 3D Microenvironment Increases Glioma Invasion by a CXCR4-Dependent Mechanism

Munson, Jennifer M.; Bellamkonda, Ravi V.; Swartz, Melody A.

doi:10.1158/0008-5472.can-12-2838

Cited by 159 publications

(217 citation statements)

References 47 publications

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“…However, these differences may reside in inherent differences of the chick CAM model and the rat model, different modes of migration of the analyzed tumor cells, or in the different application forms of the drug. The RT2 cell line, which was used in the astrocytoma study, has been shown to migrate mainly amoeboid-like (MMP-independent) in vitro (23). This is the same migratory mode as observed in BL2B95 cells.…”

Section: Discussionsupporting

confidence: 52%

The NADPH Oxidase Inhibitor Imipramine-Blue in the Treatment of Burkitt Lymphoma

Klingenberg¹,

Becker²,

Eberth³

et al. 2014

Molecular Cancer Therapeutics

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Burkitt lymphoma is a rare malignancy arising from B cells. Current chemotherapeutic regimens achieve excellent overall survival rates in children, but less impressive rates in adults. There are cases with poor outcome caused by toxic effects of the therapy, tumor lysis syndrome, or metastatic spread of lymphomas to the central nervous system. Modulators of reactive oxygen species are currently discussed as potential drugs for the treatment of cancer. The NADPH oxidase 4 inhibitor imipramine-blue might satisfy the aforementioned requirements, and was studied here. We used MTT assay, crystal violet assay, and thymidine 3H-incorporation assay to analyze the effects of imipramine-blue on Burkitt lymphoma (BL2, BL2B95, BL30B95, BL41B95), neuroblastoma (KELLY, SH-SY5Y, SMS-KAN), cervix carcinoma (HeLa), breast cancer (MDA-MB231), angiosarcoma (AS-M), human embryonic kidney (HEK293WT), and nonmalignant (FLP1) cell lines. The effects of imipramine-blue on BL2B95 cells in vivo were investigated in xenografts on the chick chorioallantoic membrane (CAM). We report that imipramine-blue is a potent growth inhibitor for several cancer cell lines in vitro with IC 50 values comparable to those of doxorubicin (0.16-7.7 mmol/L). Tumor size of BL2B95 cells inoculated in the CAM was reduced significantly (P < 0.05) after treatment with 10 mmol/L imipramine-blue. Lymphogenic dissemination of BL2B95 and the formation of blood and lymphatic vessels in experimental tumors were not affected. We show that imipramine-blue can be used to decrease the viability of cancer cell lines in vitro and in vivo. Imipramine-blue reduces the size of experimental Burkitt lymphoma significantly but does not affect the dissemination of BL2B95 cells, angiogenesis, and lymphangiogenesis.

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Section: Discussionsupporting

confidence: 52%

The NADPH Oxidase Inhibitor Imipramine-Blue in the Treatment of Burkitt Lymphoma

Klingenberg¹,

Becker²,

Eberth³

et al. 2014

Molecular Cancer Therapeutics

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“…Increased fluid pressure causes tissue compression, which leads to increased migration and transcriptional changes in cancer cells (Butcher et al, 2009). Elevated shear forces have been shown to induce GBM migration, in the direction of fluid flow, through mechanical activation of chemokine receptors (Munson et al, 2013). Changes in fluid pressure and flow are difficult to study in vivo and have thus been overlooked in glioma research.…”

Section: Effects Of Mechanical Changes On Glioma Progressionmentioning

confidence: 99%

Tissue mechanics regulate brain development, homeostasis and disease

Barnes

Przybyla

Weaver

2017

Journal of Cell Science

262

245

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All cells sense and integrate mechanical and biochemical cues from their environment to orchestrate organismal development and maintain tissue homeostasis. Mechanotransduction is the evolutionarily conserved process whereby mechanical force is translated into biochemical signals that can influence cell differentiation, survival, proliferation and migration to change tissue behavior. Not surprisingly, disease develops if these mechanical cues are abnormal or are misinterpreted by the cells – for example, when interstitial pressure or compression force aberrantly increases, or the extracellular matrix (ECM) abnormally stiffens. Disease might also develop if the ability of cells to regulate their contractility becomes corrupted. Consistently, disease states, such as cardiovascular disease, fibrosis and cancer, are characterized by dramatic changes in cell and tissue mechanics, and dysregulation of forces at the cell and tissue level can activate mechanosignaling to compromise tissue integrity and function, and promote disease progression. In this Commentary, we discuss the impact of cell and tissue mechanics on tissue homeostasis and disease, focusing on their role in brain development, homeostasis and neural degeneration, as well as in brain cancer.

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“…Indeed, recent studies have shown that interstitial fluid flow alone can drive CCR7-dependent chemotaxis in CCL21 þ tumor cells, and that this autocrine gradient synergizes with the steep local paracrine gradient from a CCL21 þ lymphatic vessel (34). This "autologous chemotaxis" can also occur with other chemokine-receptor autocrine loops, for example as shown in CXCR4-dependent flow-driven invasion of glioma cells, which also express its ligand CXCL12 (35). This is yet another way in which lymphatic vessels in the tumor microenvironment can facilitate tumor cell metastasis, i.e., by virtue of the interstitial flow that they create by their drainage function, always directed toward and into the vessel.…”

Section: Lymphatic Transport Of Cellsmentioning

confidence: 99%

Immunomodulatory Roles of Lymphatic Vessels in Cancer Progression

Swartz

2014

Cancer Immunology Research

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Lymphatic vessels in the tumor microenvironment are known to foster tumor metastasis in many cancers, and they can undergo activation, hyperplasia, and lymphangiogenesis in the tumor microenvironment and in the tumor-draining lymph node. The mechanism underlying this correlation was originally considered as lymphatic vessels providing a physical route for tumor cell dissemination, but recent studies have highlighted new roles of the lymphatic endothelium in regulating host immunity. These include indirectly suppressing T-cell function by secreting immunosuppressive factors and inhibiting dendritic cell (DC) maturation, as well as directly driving Tcell tolerance by antigen presentation in the presence of inhibitory ligands.

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Interstitial Flow in a 3D Microenvironment Increases Glioma Invasion by a CXCR4-Dependent Mechanism

Cited by 159 publications

References 47 publications

The NADPH Oxidase Inhibitor Imipramine-Blue in the Treatment of Burkitt Lymphoma

The NADPH Oxidase Inhibitor Imipramine-Blue in the Treatment of Burkitt Lymphoma

Tissue mechanics regulate brain development, homeostasis and disease

Immunomodulatory Roles of Lymphatic Vessels in Cancer Progression

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