Optimizing Orthotopic Bladder Tumor Implantation in a Syngeneic Mouse Model

PURPOSE: We established a reliable technique for orthotopically implanting bladder tumor cells in a syngeneic mouse model. MATERIALS AND METHODS: MBT-2 murine bladder cancer cells were transurethrally implanted in the bladder of syngeneic C3H/He mice (Jackson Laboratory, Bar Harbor, Maine). Different chemical pretreatments were used before tumor implantation, including phosphate buffered saline (control), HCl, trypsin and poly-L-lysine. MBT-2 cells (1 x 10(6) or 2 x 10(6)) were instilled into the intravesical space after chemical pretreatment. Tumor take and bladder tumor volume were determined by micro ultrasound. Bladders were harvested at the end of the study to measure bladder weight and for histopathological examination. RESULTS: Bladder pretreatment with HCl in 5 preparations was discontinued due to significant adverse reactions, resulting in death in 1 mouse, and severe bladder inflammation and hematuria 3 days after pretreatment in 2. Pretreatment with phosphate buffered saline, trypsin and poly-L-lysine in 6 animals each was tolerated well without significant adverse reactions or mortality. The tumor take rate in the control, trypsin and poly-L-lysine pretreatment groups was 33%, 83% and 83%, respectively. The take rate was higher in mice instilled with 2 x 10(6) cells than in those with 1 x 10(6) cells (93% vs 73%, p <0.05). CONCLUSIONS: We report a reliable, feasible method of orthotopically implanting bladder tumor cells into a syngeneic mouse model. Poly-L-lysine and trypsin are useful adjunctive pretreatment agents to improve bladder tumor uptake. This model may be suitable to evaluate treatment paradigms for bladder cancer.