Accelerated Metastasis after Short-Term Treatment with a Potent Inhibitor of Tumor Angiogenesis

Ebos, John M.L.; Lee, Christina R.; Cruz‐Muñoz, William; Bjarnason, Georg A.; Christensen, James G.; Kerbel, Robert S.

doi:10.1016/j.ccr.2009.01.021

Cited by 1,572 publications

(1,332 citation statements)

References 29 publications

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“…In addition to the importance of Arf6 in tumour angiogenesis, it has been reported that Arf6 activation in cancer cells is required for cancer invasion and metastasis 50 . Recent preclinical studies have suggested that anti-angiogenic therapy may promote cancer invasion and metastasis by inducing hypoxia of cancer cells, suggesting that effective cancer therapeutic approaches should involve both inhibition of tumour angiogenesis and cancer invasion/metastasis 51,52 . The critical roles of Arf6 in both tumour vascularization and cancer cell invasiveness/metastasis provide a new cancer therapeutic opportunity.…”

Section: Nature Communications | Doi: 101038/ncomms8925mentioning

confidence: 99%

Arf6 regulates tumour angiogenesis and growth through HGF-induced endothelial β1 integrin recycling

et al. 2015

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Section: Nature Communications | Doi: 101038/ncomms8925mentioning

confidence: 99%

Arf6 regulates tumour angiogenesis and growth through HGF-induced endothelial β1 integrin recycling

et al. 2015

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“…However, although antitumoural effects and survival benefit are often evident, relapse to progressive tumour growth has been recently reported, reflecting multiple mechanisms of adaptation to anti-angiogenic therapies. 25,26 In this context, D133p53 may have a critical role by stimulating angiogenesis through pathways involving several angiogenic factors distinct from VEGF. Thus, targeting D133p53 may have a strong impact in cancer therapeutics.…”

Section: D133p53a Stimulates Angiogenesis H Bernard Et Almentioning

confidence: 99%

The p53 isoform, Δ133p53α, stimulates angiogenesis and tumour progression

et al. 2012

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The tumour suppressor p53, involved in DNA repair, cell cycle arrest and apoptosis, also inhibits blood vessel formation, that is, angiogenesis, a process strongly contributing to tumour development. The p53 gene expresses 12 different proteins (isoforms), including TAp53 (p53 (or p53a), p53b and p53g) and D133p53 isoforms (D133p53a, D133p53b and D133p53g). The D133p53a isoform was shown to modulate p53 transcriptional activity and is overexpressed in various human tumours. However, its role in tumour progression is still unexplored. In the present study, we examined the involvement of D133p53 isoforms in tumoural angiogenesis and tumour growth in the highly angiogenic human glioblastoma U87. Our data show that conditioned media from U87 cells depleted for D133p53 isoforms block endothelial cell migration and tubulogenesis without affecting endothelial cell proliferation in vitro. The D133p53 depletion in U2OS osteosarcoma cells resulted in a similar angiogenesis blockade. Furthermore, using conditioned media from U87 cells ectopically expressing each D133p53 isoform, we determined that D133p53a and D133p53g but not D133p53b, stimulate angiogenesis. Our in vivo data using the chicken chorio-allantoic membrane and mice xenografts establish that angiogenesis and growth of glioblastoma U87 tumours are inhibited upon depletion of D133p53 isoforms. By TaqMan low-density array, we show that alteration of expression ratio of D133p53 and TAp53 isoforms differentially regulates angiogenic gene expression with D133p53 isoforms inducing pro-angiogenic gene expression and repressing anti-angiogenic gene expression.

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“…These treatments effectively inhibit tumor progression through deprivation of oxygen and nutrition from the tumor microenvironment, but cannot block metastasis of RCC cells. Moreover, there is growing evidence that antiangiogenic therapies can accelerate invasion and metastasis by making the tumor microenvironment more fertile (4,5).…”

Section: Introductionmentioning

confidence: 99%

Targeting Integrin-Linked Kinase Suppresses Invasion and Metastasis through Downregulation of Epithelial-to-Mesenchymal Transition in Renal Cell Carcinoma

Han

Raven

et al. 2015

Molecular Cancer Therapeutics

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Renal cell carcinoma (RCC) is the most common malignancy in the kidney. Antiangiogenic targeted therapies inhibit the progression of RCC, but have limited impacts on invasion or metastasis of tumor cells. Integrin-linked kinase (ILK) is a serine/threonine kinase implicated in the regulation of cell growth/survival, cellcycle progression, epithelial-mesenchymal transition (EMT), invasion/migration, and angiogenesis. However, the role of ILK in RCC has not been evaluated. We investigated the role of ILK on cancer progression and metastasis and the therapeutic potential of ILK inhibition in RCC. Our investigation reveals that ILK is expressed at a low level in normal cells and low-stage RCC cells and is highly expressed in advanced and metastatic cells. Caki-1, a metastatic RCC cell line, showed higher expression of molecular EMT markers, including Snail and Zeb1, but decreased activity of GSK3b. Knockdown of ILK using small interference (si)-ILK minimally inhibited tumor proliferation and cell-cycle progression was not significantly affected. However, ILK knockdown suppressed the formation of stress fibers and focal adhesions and impeded phenotypic EMT markers, including cell migration and invasion, in Caki-1 and UMRC-3 cells. Finally, in vivo knockdown of ILK suppressed the progression, invasion, and metastasis of primary RCC in nude mice by downregulation of EMT markers (Snail, Zeb1, vimentin,. Our results show that ILK may be essential for invasion and metastasis in RCC and regulates vimentin and E-cadherin expression by regulating the EMT-related transcription factors Snail and Zeb1. These results suggest that ILK may be a potential target in RCC.

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Accelerated Metastasis after Short-Term Treatment with a Potent Inhibitor of Tumor Angiogenesis

Cited by 1,572 publications

References 29 publications

Arf6 regulates tumour angiogenesis and growth through HGF-induced endothelial β1 integrin recycling

Arf6 regulates tumour angiogenesis and growth through HGF-induced endothelial β1 integrin recycling

The p53 isoform, Δ133p53α, stimulates angiogenesis and tumour progression

Targeting Integrin-Linked Kinase Suppresses Invasion and Metastasis through Downregulation of Epithelial-to-Mesenchymal Transition in Renal Cell Carcinoma

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