Disease Models & Mechanisms (Sep 2015)

Suppression of β3-integrin in mice triggers a neuropilin-1-dependent change in focal adhesion remodelling that can be targeted to block pathological angiogenesis

  • Tim S. Ellison,
  • Samuel J. Atkinson,
  • Veronica Steri,
  • Benjamin M. Kirkup,
  • Michael E. J. Preedy,
  • Robert T. Johnson,
  • Christiana Ruhrberg,
  • Dylan R. Edwards,
  • Jochen G. Schneider,
  • Katherine Weilbaecher,
  • Stephen D. Robinson

DOI
https://doi.org/10.1242/dmm.019927
Journal volume & issue
Vol. 8, no. 9
pp. 1105 – 1119

Abstract

Read online

Anti-angiogenic treatments against αvβ3-integrin fail to block tumour growth in the long term, which suggests that the tumour vasculature escapes from angiogenesis inhibition through αvβ3-integrin-independent mechanisms. Here, we show that suppression of β3-integrin in mice leads to the activation of a neuropilin-1 (NRP1)-dependent cell migration pathway in endothelial cells via a mechanism that depends on NRP1's mobilisation away from mature focal adhesions following VEGF-stimulation. The simultaneous genetic targeting of both molecules significantly impairs paxillin-1 activation and focal adhesion remodelling in endothelial cells, and therefore inhibits tumour angiogenesis and the growth of already established tumours. These findings provide a firm foundation for testing drugs against these molecules in combination to treat patients with advanced cancers.

Keywords