Screening assay for blood vessel maturation inhibitors

Chenglai Fu, Anita van der Zwan, Stephanie Gerber, Susan Van Den Berg, Elisa No, Wayne C.H.Wang, Nader Sheibani, Michael A. Carducci, Sushant Kachhap, Hans J. Hammers

Research output: Contribution to journalArticlepeer-review

7 Scopus citations


In cancer patients, the development of resistance to anti-angiogenic agents targeting the VEGF pathway is common. Increased pericyte coverage of the tumor vasculature undergoing VEGF targeted therapy has been suggested to play an important role in resistance. Therefore, reducing the pericytes coverage of the tumor vasculature has been suggested to be a therapeutic approach in breaking the resistance to and increasing the efficacy of anti-angiogenic therapies. To screen compound libraries, a simple in vitro assay of blood vessel maturation demonstrating endothelial cells and pericytes association while forming lumenized vascular structures is needed. Unfortunately, previously described 3-dimensional, matrix based assays are laborious and challenging from an image and data acquisition perspective. For these reasons they generally lack the scalability needed to perform in a high-throughput environment. With this work, we have developed a novel in vitro blood vessel maturation assay, in which lumenized, vascular structures form in one optical plane and mesenchymal progenitor cells (10T1/2) differentiate into pericyte-like cells, which associate with the endothelial vessels (HUVECs). The differentiation of the 10T1/2 cells into pericyte-like cells is visualized using a GFP reporter controlled by the alpha smooth muscle actin promoter (SMP-8). The organization of these vascular structures and their recruited mural cells in one optical plane allows for automated data capture and subsequent image analysis. The ability of this assay to screen for inhibitors of pericytes recruitment was validated. In summary, this novel assay of in vitro blood vessel maturation provides a valuable tool to screen for new agents with therapeutic potential.

Original languageEnglish (US)
Pages (from-to)364-369
Number of pages6
JournalBiochemical and Biophysical Research Communications
Issue number2
StatePublished - Aug 23 2013


  • Angiogenesis model
  • Blood vessel maturation
  • Drug screening
  • Endoglin
  • Imatinib
  • Pericyte
  • Sunitinib

ASJC Scopus subject areas

  • Biophysics
  • Biochemistry
  • Molecular Biology
  • Cell Biology


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