Objective: To establish the murine xenograft model of human prostate cancer by grafting tumor tissues beneath the renal capsule of intact male athymic mouse.
Methods: Fifteen SCID mice were randomly divided into 3 groups (n = 5 each). Tissue recombinants were prepared in vitro with newborn BALB/c murine seminal vesicle mesenchyme (SVM) and surgical isolated human prostate cancer tissues by using recombination technique and then grafted beneath the renal capsule of intact male athymic mouse. At Week 4 after initial implantation, grafts were harvested and tumor sizes calculated. The expressions of human specific markers CK8/18 and vimentin were evaluated by immunohistochemistry to identify the human prostatic origin in grafts. P63 protein, a basal cell marker, was detected in prostate basal membrane to identify whether it was benign or malignant tissue. And the study control was prepared by implanting prostate cancer tissues alone under the renal capsule in SCID mouse.
Results: Of all 78 implantation cases in 15 mice, the tumor-forming rates were 100% (39/39) and 94.1% (37/39) respectively in the recombination and prostate cancer alone grafting groups. The recombination group was shown to be more efficient in terms of tumor size and weight in comparison with the prostate cancer alone group [(9.7 ± 3.1) vs (6.8 ± 2.0) mm(3), (12.1 ± 3.6) vs (8.2 ± 2.2) µg, P < 0.01]. There was no difference in serum PSA level between two groups. Grafts were confirmed as human prostate cancer tissues with the expressions of CK8/18 and vimentin. No expression of P63 was detected.
Conclusion: The xenograft murine model of human prostate cancer is successfully established. It contains stroma components and is particularly suitable for studying the interaction of stroma and epithelia in the in vivo progression of prostate cancer.