Abstract
We developed an immuno-PET technique that monitors modulation of tumor CD133 expression, which is required for the success of CD133-targeted therapies. Methods. Anti-CD133 antibodies were subjected to sulfhydryl moiety-specific 89Zr conjugation. 89Zr-CD133 IgG was evaluated for specific activity and radiolabel stability. Colon cancer cells underwent binding assays and Western blotting. Biodistribution and PET studies were performed in mice. Results. 89Zr-CD133 IgG showed excellent target specificity with 97.2 ± 0.7% blocking of HT29 cell binding by an excess antibody. Intravenous 89Zr-CD133 IgG followed biexponential blood clearance and showed CD133-specific uptake in HT29 tumors. 89Zr-CD133 IgG PET/CT and biodistribution studies confirmed high HT29 tumor uptake with lower activities in the blood and normal organs. In HT29 cells, celecoxib dose-dependently decreased CD133 expression and 89Zr-CD133 IgG binding that reached 19.9 ± 2.1% (P < 0.005) and 50.3 ± 10.9% (P < 0.001) of baseline levels by 50 μM, respectively. Celecoxib treatment of mice significantly suppressed tumor CD133 expression to 67.5 ± 7.8% of controls (P < 0.005) and reduced tumor 89Zr-CD133 IgG uptake from 15.5 ± 1.4% at baseline to 12.3 ± 2.0%ID/g (P < 0.01). Celecoxib-induced CD133 reduction in HT29 cells and tumors was associated with substantial suppression of AKT activation. There were also reduced HIF-1α accumulation and IκBα/NFκB phosphorylation. Conclusion. 89Zr-CD133 IgG PET provides high-contrast tumor imaging and monitors celecoxib treatment-induced modulation of tumor CD133 expression, which was found to occur through AKT inhibition. This technique may thus be useful for screening drugs that can effectively suppress colon cancer stem cells.
Highlights
Colorectal cancer is a leading cause of morbidity and mortality worldwide, and treatment-resistant cancer stem cells (CSCs) are a major challenge for overcoming this disease [1, 2]
Positron emission tomography (PET) imaging can be applied to overcome the limitations of biopsy-dependent techniques including sampling errors, invasiveness, and the challenges that are associated with conducting serial examinations
We further explored the signaling pathways involved in the observed effects of celecoxib on tumor CD133 expression and PET results
Summary
Colorectal cancer is a leading cause of morbidity and mortality worldwide, and treatment-resistant cancer stem cells (CSCs) are a major challenge for overcoming this disease [1, 2]. The most widely used biomarker to identify and target colon CSCs is CD133 (prominin 1), a transmembrane protein associated with tumor progression and poor patient outcomes. In patients with colon cancer, CD133 expression is associated with treatment resistance, tumor metastasis, and recurrence [5, 6]. Immunohistochemical staining assessment of biopsied specimen is problematic due to the Molecular Imaging heterogeneity of CD133 expression according to the lesion site as well as within the same lesion [9]. It does not allow quantitative measurement of the total protein amount in the whole tumor. Immuno-PET using radiolabeled anti-CD133 antibodies has been associated with successful imaging of a tumor expressing CD133 [10,11,12,13]
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