David J. Wong, M.D., Ph.D.

Publication Details

  • Invasive three-dimensional organotypic neoplasia from multiple normal human epithelia NATURE MEDICINE Ridky, T. W., Chow, J. M., Wong, D. J., Khavari, P. A. 2010; 16 (12): 1450-U137

    Abstract:

    Refined cancer models are required if researchers are to assess the burgeoning number of potential targets for cancer therapeutics in a clinically relevant context that allows a fast turnaround. Here we use tumor-associated genetic pathways to transform primary human epithelial cells from the epidermis, oropharynx, esophagus and cervix into genetically defined tumors in a human three-dimensional (3D) tissue environment that incorporates cell-populated stroma and intact basement membrane. These engineered organotypic tissues recapitulated natural features of tumor progression, including epithelial invasion through basement membrane, a complex process that is necessary for biological malignancy in 90% of human cancers. Invasion was rapid and was potentiated by stromal cells. Oncogenic signals in 3D tissue, but not 2D culture, resembled gene expression profiles from spontaneous human cancers. We screened 3D organotypic neoplasia with well-characterized signaling pathway inhibitors to distill a clinically faithful cancer gene signature. Multitissue 3D human tissue cancer models may provide an efficient and relevant complement to current approaches to characterizing cancer progression.

    View details for DOI 10.1038/nm.2265

    View details for Web of Science ID 000285048900041

    View details for PubMedID 21102459

Stanford Medicine Resources:

Footer Links: