Primary tumor size-dependent inhibition of angiogenesis at a secondary site: an intravital microscopic study in mice

Some primary tumors are capable of suppressing the growth of their metastases by presumably generating antiangiogenic factors such as angiostatin. We hypothesized that the amount of inhibitor(s) released by a tumor increases with tumor growth. We tested this hypothesis by evaluating the relationship between the size of a primary tumor and its ability to inhibit angiogenesis at a secondary site. Furthermore, we characterized the effects of the primary tumor on physiological properties of newly formed vessels at the secondary site. Angiogenesis and physiological properties were measured using intravital microscopy of angiogenic vessels in the gels containing basic fibroblast growth factor placed into cranial windows of immunodeficient mice bearing human prostatic carcinoma (PC-3) in their flank. The PC-3 tumor inhibited angiogenesis in the gels, and surgical resection of tumor reversed this inhibition. The inhibition of angiogenesis 20 days after gel implantation (range, 0-83%) correlated positively (r = 0.625; P < 0.008) with the tumor size on the day of gel implantation (range, 19-980 mm3). The primary tumor also suppressed leukocyte-adhesion in angiogenic vessels, thus helping them evade the immune recognition. These results provide an additional rationale for combining antiangiogenic treatment with local therapies.