PURPOSE: Integrins, especially α(v)β(3) and α(v)β(5), are upregulated in tumor cells and activated endothelial cells and as such, serve as cancer biomarkers. We developed a novel near-infrared-labeled optical agent for the in vivo detection and quantification of α(v)β(3)/α(v)β(5). PROCEDURES: A small peptidomimetic α(v)β(3) antagonist was synthesized, coupled to a near-infrared fluorescent (NIRF) dye, and tested for binding specificity using integrin-overexpressing cells, inhibition of vitronectin-mediated cell attachment, binding to tumor and endothelial cells in vitro, and competition studies. Pharmacokinetics, biodistribution, specificity of tumor targeting, and the effect of an antiangiogenic treatment were assessed in vivo. RESULTS: The integrin NIRF agent showed strong selectivity towards α(v)β(3/)α(v)β(5) in vitro and predominant tumor distribution in vivo, allowing noninvasive and real-time quantification of integrin signal in tumors. Antiangiogenic treatment significantly inhibited integrin signal in vivo but had no effect on a cathepsin-cleavable NIR agent. Simultaneous imaging revealed different patterns of distribution reflecting the underlying differences in integrin and cathepsin biology during tumor progression. CONCLUSIONS: NIRF-labeled integrin antagonists allow noninvasive molecular fluorescent imaging and quantification of tumors in vivo, improving and providing more refined approaches for cancer detection and treatment monitoring.
PURPOSE: Integrins, especially α(v)β(3) and α(v)β(5), are upregulated in tumor cells and activated endothelial cells and as such, serve as cancer biomarkers. We developed a novel near-infrared-labeled optical agent for the in vivo detection and quantification of α(v)β(3)/α(v)β(5). PROCEDURES: A small peptidomimetic α(v)β(3) antagonist was synthesized, coupled to a near-infrared fluorescent (NIRF) dye, and tested for binding specificity using integrin-overexpressing cells, inhibition of vitronectin-mediated cell attachment, binding to tumor and endothelial cells in vitro, and competition studies. Pharmacokinetics, biodistribution, specificity of tumor targeting, and the effect of an antiangiogenic treatment were assessed in vivo. RESULTS: The integrin NIRF agent showed strong selectivity towards α(v)β(3/)α(v)β(5) in vitro and predominant tumor distribution in vivo, allowing noninvasive and real-time quantification of integrin signal in tumors. Antiangiogenic treatment significantly inhibited integrin signal in vivo but had no effect on a cathepsin-cleavable NIR agent. Simultaneous imaging revealed different patterns of distribution reflecting the underlying differences in integrin and cathepsin biology during tumor progression. CONCLUSIONS: NIRF-labeled integrin antagonists allow noninvasive molecular fluorescent imaging and quantification of tumors in vivo, improving and providing more refined approaches for cancer detection and treatment monitoring.
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Authors: M Friedlander; C L Theesfeld; M Sugita; M Fruttiger; M A Thomas; S Chang; D A Cheresh Journal: Proc Natl Acad Sci U S A Date: 1996-09-03 Impact factor: 11.205
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