Single-cell imaging of human cancer xenografts using adult immunodeficient zebrafish

Zebrafish are an ideal cell transplantation model. They are highly fecund, optically clear and an excellent platform for preclinical drug discovery studies. Traditionally, xenotransplantation has been carried out using larval zebrafish that have not yet developed adaptive immunity. Larval engraftment is a powerful short-term transplant platform amenable to high-throughput drug screening studies, yet animals eventually reject tumors and cannot be raised at 37 degrees C. To address these limitations, we have recently developed adultcasper-strainprkdc(-/-), il2rg alpha(-/-)immunocompromised zebrafish that robustly engraft human cancer cells for in excess of 28 d. Because the adult zebrafish can be administered drugs by oral gavage or i.p. injection, our model is suitable for achieving accurate, preclinical drug dosing. Our platform also allows facile visualization of drug effects in vivo at single-cell resolution over days. Here, we describe the procedures for xenograft cell transplantation into theprkdc(-/-), il2rg alpha(-/-)model, including refined husbandry protocols for optimal growth and rearing of immunosuppressed zebrafish at 37 degrees C; optimized intraperitoneal and periocular muscle cell transplantation; and epifluorescence and confocal imaging approaches to visualize the effects of administering clinically relevant drug dosing at single-cell resolution in vivo. After identification of adult homozygous animals, this procedure takes 35 d to complete. 7 days are required to acclimate adult fish to 37 degrees C, and 28 d are required for engraftment studies. Our protocol provides a comprehensive guide for using immunocompromised zebrafish for xenograft cell transplantation and credentials the model as a new preclinical drug discovery platform. This protocol describes how to engraft human cancer cells in immunocompromised adult zebrafish. The fish are first adapted to 37 degrees C, followed by intraperitoneal or periocular muscle transplantation of xenograft cells and fluorescence imaging.