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Blockade of Dll4 inhibits tumour growth by promoting non-productive angiogenesis

Author

Listed:
  • Irene Noguera-Troise

    (Regeneron Research Laboratories)

  • Christopher Daly

    (Regeneron Research Laboratories)

  • Nicholas J. Papadopoulos

    (Regeneron Research Laboratories)

  • Sandra Coetzee

    (Regeneron Research Laboratories)

  • Pat Boland

    (Regeneron Research Laboratories)

  • Nicholas W. Gale

    (Regeneron Research Laboratories)

  • Hsin Chieh Lin

    (Regeneron Research Laboratories)

  • George D. Yancopoulos

    (Regeneron Research Laboratories)

  • Gavin Thurston

    (Regeneron Research Laboratories)

Abstract

Tumour growth requires accompanying expansion of the host vasculature, with tumour progression often correlated with vascular density. Vascular endothelial growth factor (VEGF) is the best-characterized inducer of tumour angiogenesis. We report that VEGF dynamically regulates tumour endothelial expression of Delta-like ligand 4 (Dll4), which was previously shown to be absolutely required for normal embryonic vascular development. To define Dll4 function in tumour angiogenesis, we manipulated this pathway in murine tumour models using several approaches. Here we show that blockade resulted in markedly increased tumour vascularity, associated with enhanced angiogenic sprouting and branching. Paradoxically, this increased vascularity was non-productive—as shown by poor perfusion and increased hypoxia, and most importantly, by decreased tumour growth—even for tumours resistant to anti-VEGF therapy. Thus, VEGF-induced Dll4 acts as a negative regulator of tumour angiogenesis; its blockade results in a striking uncoupling of tumour growth from vessel density, presenting a novel therapeutic approach even for tumours resistant to anti-VEGF therapies.

Suggested Citation

  • Irene Noguera-Troise & Christopher Daly & Nicholas J. Papadopoulos & Sandra Coetzee & Pat Boland & Nicholas W. Gale & Hsin Chieh Lin & George D. Yancopoulos & Gavin Thurston, 2006. "Blockade of Dll4 inhibits tumour growth by promoting non-productive angiogenesis," Nature, Nature, vol. 444(7122), pages 1032-1037, December.
    • Handle: RePEc:nat:nature:v:444:y:2006:i:7122:d:10.1038_nature05355
    DOI: 10.1038/nature05355
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    Cited by:

    1. David Ascheid & Magdalena Baumann & Jürgen Pinnecker & Mike Friedrich & Daniel Szi-Marton & Cornelia Medved & Maja Bundalo & Vanessa Ortmann & Asli Öztürk & Rajender Nandigama & Katherina Hemmen & Sül, 2024. "A vascularized breast cancer spheroid platform for the ranked evaluation of tumor microenvironment-targeted drugs by light sheet fluorescence microscopy," Nature Communications, Nature, vol. 15(1), pages 1-23, December.

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