Endorepellin in vivo: targeting the tumor vasculature and retarding cancer growth and metabolism

G Bix, R Castello, M Burrows, JJ Zoeller… - Journal of the …, 2006 - academic.oup.com
G Bix, R Castello, M Burrows, JJ Zoeller, M Weech, RA Iozzo, C Cardi, ML Thakur…
Journal of the National Cancer Institute, 2006academic.oup.com
Background: The antiangiogenic approach to controlling cancer requires a better
understanding of angiogenesis and the discovery of new compounds that modulate this key
biological process. Here we investigated the role of endorepellin, an angiostatic protein
fragment that is derived from the C-terminus of perlecan, a heparan sulfate proteoglycan, in
controlling tumor angiogenesis in vivo. Methods: We administered human recombinant
endorepellin systemically to mice bearing orthotopic squamous carcinoma xenografts or …
Abstract
Background: The antiangiogenic approach to controlling cancer requires a better understanding of angiogenesis and the discovery of new compounds that modulate this key biological process. Here we investigated the role of endorepellin, an angiostatic protein fragment that is derived from the C-terminus of perlecan, a heparan sulfate proteoglycan, in controlling tumor angiogenesis in vivo. Methods: We administered human recombinant endorepellin systemically to mice bearing orthotopic squamous carcinoma xenografts or syngeneic Lewis lung carcinoma tumors. We monitored tumor growth, angiogenesis, metabolism, hypoxia, and mitotic index by using quantitative immunohistochemistry and positron emission tomography scan imaging. In addition, we determined the localization of injected endorepellin using near-infrared labeling and immunohistochemistry of frozen tumor sections. Finally, we isolated tumor-derived endothelial cells and tested whether endorepellin could interact with these cells and disrupt in vitro capillary morphogenesis. All statistical tests were two-sided. Results: Endorepellin specifically targeted the tumor vasculature as determined by immunohistochemical analysis and accumulated in the tumor perivascular zones where it persisted for several days as discrete deposits. This led to inhibition of tumor angiogenesis (as measured by decreased CD31-positive cells, mean control = 1902 CD31-positive pixels, mean endorepellin treated = 343.9, difference between means = 1558, 95% confidence interval [CI] = 1296 to 1820, P <.001), enhanced tumor hypoxia, and a statistically significant decrease in tumor metabolism and mitotic index (as measured by decreased Ki67-positive cells, mean control Ki67 pixels = 5970, mean endorepellin-treated Ki67 pixels = 3644, difference between means = 2326, 95% CI = 1904 to 2749, P <.001) compared to untreated controls. Endorepellin was actively internalized by tumor-derived endothelial cells causing a redistribution of α2β1 integrin such that both proteins colocalized to punctate deposits in the perivascular region. Endorepellin treatment inhibited in vitro capillary morphogenesis of both normal and tumor-derived endothelia. Conclusions: Our results provide support for the hypothesis that endorepellin is an effective antitumor vasculature agent that could be used as a therapeutic modality to combat cancer.
Oxford University Press