Characterization of Zebrafish Facial Lymphatics.

Zebrafish are well-established as a model of vascular development. The genetic tractability, external development, permeability to small molecules and optical transparency of zebrafish larvae are all attributes that make this model attractive to the vascular biologist. There are an increasing number of lymphatic reporter lines that enable the visualization of zebrafish lymphatic vessel growth in vivo; these tools, coupled with either forward or reverse genetics, have provided new insights into the process of lymphatic specification and development. Zebrafish larvae have three main lymphatic networks: the trunk lymphatics, the intestinal lymphatics, and the facial lymphatics and it is therefore possible to use zebrafish to determine network-specific roles for molecules implicated in lymphatic development. This chapter provides protocols for visualization and analysis of facial lymphatic development in the zebrafish and may be applied in developmental or drug discovery studies.

An in vivo antilymphatic screen in zebrafish identifies novel inhibitors of mammalian lymphangiogenesis and lymphatic-mediated metastasis.

The growth of new lymphatic vessels (lymphangiogenesis) in tumors is an integral step in the metastatic spread of tumor cells, first to the sentinel lymph nodes that surround the tumor and then elsewhere in the body. Currently, no selective agents designed to prevent lymphatic vessel growth have been approved for clinical use, and there is an important potential clinical niche for antilymphangiogenic agents. Using a zebrafish phenotype-based chemical screen, we have identified drug compounds, previously approved for human use, that have antilymphatic activity. These include kaempferol, a natural product found in plants; leflunomide, an inhibitor of pyrimidine biosynthesis; and cinnarizine and flunarizine, members of the type IV class of calcium channel antagonists. Antilymphatic activity was confirmed in a murine in vivo lymphangiogenesis Matrigel plug assay, in which kaempferol, leflunomide, and flunarizine prevented lymphatic growth. We show that kaempferol is a novel inhibitor of VEGFR2/3 kinase activity and is able to reduce the density of tumor-associated lymphatic vessels as well as the incidence of lymph node metastases in a metastatic breast cancer xenograft model. However, in this model, kaempferol administration was also associated with tumor deposits in the pancreas and diaphragm, and flunarizine was found to be tumorigenic. Although this screen revealed that zebrafish is a viable platform for the identification and development of mammalian antilymphatic compounds, it also highlights the need for focused secondary screens to ensure appropriate efficacy of hits in a tumor context.