c-Abl mediates endothelial apoptosis induced by inhibition of integrins αvβ3 and αvβ5 and by disruption of actin

Xu, Jingying; Millard, Melissa; Ren, Xiuhai; Cox, Órla T.; Erdreich‐Epstein, Anat

doi:10.1182/blood-2009-05-223776

Cited by 26 publications

(35 citation statements)

References 49 publications

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“…Primary cultures of human brain microvascular endothelial cells (HBMECs) were prepared from normal brain tissue obtained during expedited autopsy and cultured in RPMI-1640 with 10% fetal bovine serum, 2 mM L-glutamine, 1 mM sodium pyruvate, 20 mM HEPES, 50 U/ml penicillin and 50 μg/ml streptomycin. The cells used in this study were originally described as HBMEC-3 (20) and validated for expression of factor VIII-reactive antigen and uptake of acetylated low density lipoprotein. We further validated HBMECs for expression of endothelial markers and negligible expression of fibulin-3 (Figure S1), and authenticated them by short-tandem repeat DNA profiling (Idexx Bioresearch, Columbia MO).…”

Section: Methodsmentioning

confidence: 99%

Novel Paracrine Modulation of Notch–DLL4 Signaling by Fibulin-3 Promotes Angiogenesis in High-Grade Gliomas

Nandhu

Cole

et al. 2014

Cancer Research

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High-grade gliomas are characterized by exuberant vascularization, diffuse invasion and significant chemoresistance, resulting in a recurrent phenotype that makes them impossible to eradicate in the long-term. Targeting pro-tumoral signals in the glioma microenvironment could have significant impact against tumor cells and the supporting niche that facilitates their growth. Fibulin-3 is a protein secreted by glioma cells, but absent in normal brain, that promotes tumor invasion and survival. We show here that fibulin-3 is a paracrine activator of Notch signaling in endothelial cells and promotes glioma angiogenesis. Fibulin-3 overexpression increased tumor VEGF levels, microvascular density, and vessel permeability, while fibulin-3 knockdown reduced vessel density in xenograft models of glioma. Fibulin-3 localization in human glioblastomas showed dense fiber-like condensations around tumor blood vessels, which were absent in normal brain, suggesting a remarkable association of this protein with tumor endothelium. At the cellular level, fibulin-3 enhanced endothelial cell motility and association to glioma cells, reduced endothelial cell sprouting, and increased formation of endothelial tubules, in a VEGF-independent and Notch-dependent manner. Fibulin-3 increased ADAM10/17 activity in endothelial cells by inhibiting the metalloprotease inhibitor TIMP3; this resulted in increased Notch cleavage and increased expression of DLL4 independently of VEGF signaling. Inhibition of ADAM10/17 or knockdown of DLL4 reduced the pro-angiogenic effects of fibulin-3 in culture. Taken together, these results reveal a novel, pro-angiogenic role of fibulin-3 in gliomas, highlighting the relevance of this protein as an important molecular target in the tumor microenvironment.

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Section: Methodsmentioning

confidence: 99%

Novel Paracrine Modulation of Notch–DLL4 Signaling by Fibulin-3 Promotes Angiogenesis in High-Grade Gliomas

Nandhu

Cole

et al. 2014

Cancer Research

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“…Cells were grown in DMEM/F12 plus FBS (10%) and penicillin/streptomycin (1%), as published (14, 23). Human brain microvascular endothelial cells (isolate # 4 or HBMEC-4) were obtained following isolation of brain capillaries and their culturing as previously described (24, 25), and used at early passages. Human astrocytes were purchased from Lonza (Lonza Group Ltd., Basel, Switzerland), and grown in media supplemented with AGM Bulletkit for astrocytes (astrocyte growth media, cat # CC-1423).…”

Section: Methodsmentioning

confidence: 99%

Heparanase-Induced GEF-H1 Signaling Regulates the Cytoskeletal Dynamics of Brain Metastatic Breast Cancer Cells

Ridgway

Wetzel

Ngo

et al. 2012

Molecular Cancer Research

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Heparanase (HPSE) is the only mammalian endoglycosidase which has been widely implicated in cancer because of its capability to degrade heparan sulfate chains (HS) of HS proteoglycans (HSPGs). Specifically, the cell surface HSPG syndecans 1 and 4 (SDC1 and SDC4) are modulators of growth factor action and SDC4 is implicated in cell adhesion as a key member of focal adhesion complexes. We hypothesized that extracellular heparanase modulates brain metastatic breast cancer (BMBC) cell invasiveness by affecting cytoskeletal dynamics, SDC4 carboxy terminal-associated proteins, and downstream targets. We used two independently-derived human BMBC cell systems (MB-231BR, MB-231BR3), which possess distinct cellular morphologies and properties. Highly aggressive spindle-shaped 231BR3 cells changed to a round-cell morphology associated with expression of the small GTPase guanine nucleotide exchange factor-H1 (GEF-H1). We demonstrated that GEF-H1 is a new component of the SDC4 signaling complex in BMBC cells. Treatment with HPSE resulted in regulation of the SDC4/protein kinase Cα axis while maintaining a constitutive GEF-H1 level. Third, GEF-H1 knockdown followed by cell exposure to HPSE caused a significant regulation of activities of Rac1 and RhoA, which are GEF-H1 targets and fundamental effectors in cell plasticity control. Fourth, L-HPSE augmented expression of β1 Integrin in BMBC cells and of vascular cell adhesion molecule 1 (VCAM1; the major β1 Integrin receptor) in human brain microvascular endothelial cells. Finally, using a newly developed blood-brain barrier in vitro model, we show that BMBC cell transmigration was significantly reduced in GEF-H1 knockdown cells. These findings implicate heparanase in mechanisms of cytoskeletal dynamics and in the cross-talk between tumor cells and vascular brain endothelium. They are of relevance because they elucidate molecular events in the initial steps leading to BMBC onset and capturing distinct roles of latent and active HPSE in the brain microenvironment.

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“…ABL1 (c-Abl) is a ubiquitously expressed non-receptor tyrosine kinase that has been implicated in many cellular processes including cell migration, differentiation, apoptosis and gene regulation (20–22). ABL1 has also been implicated in the proliferation and metastasis of melanoma and breast cancer cells (23–25).…”

Section: Introductionmentioning

confidence: 99%

CSF1R Signaling Blockade Stanches Tumor-Infiltrating Myeloid Cells and Improves the Efficacy of Radiotherapy in Prostate Cancer

et al. 2013

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Radiotherapy is used to treat many types of cancer, but many treated patients relapse with local tumor recurrence. Tumor-infiltrating myeloid cells (TIMs), including CD11b (ITGAM)+F4/80 (EMR1)+ tumor-associated macrophages (TAMs) and CD11b+Gr-1 (LY6G)+ myeloid-derived suppressor cells (MDSCs), respond to cancer-related stresses and play critical roles in promoting tumor angiogenesis, tissue remodeling and immunosuppression. In this report, we employed a prostate cancer model to investigate the effects of irradiation on TAMs and MDSCs in tumor-bearing animals. Unexpectedly, when primary tumor sites were irradiated we observed a systemic increase of MDSCs in spleen, lung, lymph nodes and peripheral blood. Cytokine analysis showed that the macrophage colony-stimulating factor CSF1 increased by 2-fold in irradiated tumors. Enhanced macrophage migration induced by conditioned media from irradiated tumor cells was completely blocked by a selective inhibitor of CSF1R. These findings were confirmed in prostate cancer patients, where serum levels of CSF1 increased after radiotherapy. Mechanistic investigations revealed the recruitment of the DNA damage-induced kinase ABL1 into cell nuclei where it bound the CSF1 gene promoter and enhanced CSF1 gene transcription. When added to radiotherapy, a selective inhibitor of CSF1R suppressed tumor growth more effectively than radiation alone. Our results highlight the importance of CSF1/CSF1R signaling in the recruitment of TIMs which can limit the efficacy of radiotherapy. Further, they suggest that CSF1 inhibitors should be evaluated in clinical trials in combination with radiotherapy as a strategy to improve outcomes.

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c-Abl mediates endothelial apoptosis induced by inhibition of integrins αvβ3 and αvβ5 and by disruption of actin

Cited by 26 publications

References 49 publications

Novel Paracrine Modulation of Notch–DLL4 Signaling by Fibulin-3 Promotes Angiogenesis in High-Grade Gliomas

Novel Paracrine Modulation of Notch–DLL4 Signaling by Fibulin-3 Promotes Angiogenesis in High-Grade Gliomas

Heparanase-Induced GEF-H1 Signaling Regulates the Cytoskeletal Dynamics of Brain Metastatic Breast Cancer Cells

CSF1R Signaling Blockade Stanches Tumor-Infiltrating Myeloid Cells and Improves the Efficacy of Radiotherapy in Prostate Cancer

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