Tissue architectural cues drive organ targeting of human tumor cells in zebrafish

Sites of metastasis are non-random, with certain types of cancers showing organ preference during distal colonization. Using multiple brain- and bone marrow-seeking human and murine breast cancer subclones, we determined that tumor cells that home to specific murine organs (brain and bone marrow) ultimately colonized analogous tissues (brain and caudal vein plexus [CVP]) in larval zebrafish. We then exploited the zebrafish model to delineate factors leading to differential cell homing and extravasation. Bone marrow-tropic clones showed higher expression of integrins and focal adhesions associated with mechanosensing machinery than brain-tropic clones and were more sensitive to vessel topography during extravasation. Knockdown of β1 integrin reduced extravasation and redistributed organ targeting from disordered vessels in the CVP to the brain. Our results show that organ selectivity is driven by topography- and cell type-dependent extravasation at the tumor-endothelial interface in the larval zebrafish and provide important insights into the early stages of metastasis.