Host matrix metalloproteinase-9 contributes to tumor vascularization without affecting tumor growth in a model of prostate cancer bone metastasis

Matrix metalloproteinases (MMPs) have been associated with initiation, progression and vascularization of a number of tumors. However, clinical trials using MMP inhibitors failed to meet expectations. Previously, we demonstrated the potential importance of MMP-9 activity in experimental prostate cancer bone tumor tissue. However, the particular roles of host- and tumor-derived MMP-9 remains to be defined. Herein, we examined the role of host MMP-9 in subcutaneous and intraosseous growth of the human androgen independent prostate cancer cell line PC3 in MMP-9 deficient mice. In the subcutaneous model, the tumor incidence in the control (RAG-1(ko/ko)) and experimental (RAG-1(ko/ko) /MMP-9(ko/ko)) group was 100%, with similar tumor growth kinetics and microvascular densities. In the intraosseous tumor model, the tumor incidence was higher in RAG-1(ko/ko) /MMP-9(ko/ko) mice than in RAG-1(ko/ko) mice (67% and 39%, respectively), though no statistical differences were found. The intraosseous tumor areas were similar in both groups, and the number of tumor-associated osteoclasts did not differ significantly. However, the microvascular density of intraosseous tumors was higher in RAG-1(ko/ko) than in RAG-1(ko/ko) /MMP-9(ko/ko) supercript stop mice, though no changes in tumor growth could be detected. In an in vitro assay, we found that bone marrow (BM) cells increased the invasiveness of PC3 cells, and that this enhancement was independent of MMP-9 expression by marrow cells. Our results with the RAG-1 model suggest that host-derived MMP-9 is neither necessary nor sufficient for subcutaneous or intraosseous PC3 tumor growth, osteoclastic response, or in vitro invasiveness of tumor cells.