The effect of chemotherapeutic agents on tumor vasculature in subcutaneous and orthotopic human tumor xenografts

Fung, A.; Lee, Carol; Yu, Man; Tannock, Ian F.

doi:10.1186/s12885-015-1091-6

Cited by 34 publications

(25 citation statements)

References 26 publications

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“…TAX (as well as other taxane derivatives) is a cytotoxic agent and endothelial cells, which line blood vessels, are especially susceptible to taxane cytotoxicity at subclinical concentrations . We note that the taxanes are extremely lipophilic and primarily serum‐protein bound in circulation .…”

Section: Resultsmentioning

confidence: 92%

On Command Drug Delivery via Cell‐Conveyed Phototherapeutics

Marvin

Ding

White

et al. 2019

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Herein, the use of red blood cells (RBCs) as carriers of cytoplasmically interned phototherapeutic agents is described. Photolysis promotes drug release from the RBC carrier thereby providing the means to target specific diseased sites. This strategy is realized with a vitamin B12‐taxane conjugate (B12‐TAX), in which the drug is linked to the vitamin via a photolabile CoC bond. The conjugate is introduced into mouse RBCs (mRBCs) via a pore‐forming/pore‐resealing procedure and is cytoplasmically retained due to the membrane impermeability of B12. Photolysis separates the taxane from the B12 cytoplasmic anchor, enabling the drug to exit the RBC carrier. A covalently appended Cy5 antenna sensitizes the conjugate (Cy5‐B12‐TAX) to far red light, thereby circumventing the intense light absorbing properties of hemoglobin (350–600 nm). Microscopy and imaging flow cytometry reveal that Cy5‐B12‐TAX‐loaded mRBCs act as drug carriers. Furthermore, intravital imaging of mice furnish a real time assessment of circulating phototherapeutic‐loaded mRBCs as well as evidence of the targeted photorelease of the taxane upon photolysis. Histopathology confirms that drug release occurs in a well resolved spatiotemporal fashion. Finally, acoustic angiography is employed to assess the consequences of taxane release at the tumor site in Nu/Nu‐tumor‐bearing mice.

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Section: Resultsmentioning

confidence: 92%

On Command Drug Delivery via Cell‐Conveyed Phototherapeutics

Marvin

Ding

White

et al. 2019

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“…Orthotopic tumor models are regarded as superior to traditional subcutaneous models, as the microenvironment is important for tumor development and compound delivery (36). The use of different noninvasive imaging modalities, including PET, makes monitoring of tumor development in orthotopic models feasible.…”

Section: Discussionmentioning

confidence: 99%

Urokinase-Type Plasminogen Activator Receptor as a Potential PET Biomarker in Glioblastoma

et al. 2015

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Glioblastoma is one of the most malignant types of human cancer, and the prognosis is poor. The development and validation of novel molecular imaging biomarkers has the potential to improve tumor detection, grading, risk stratification, and treatment monitoring of gliomas. The aim of this study was to explore the potential of PET imaging of the urokinase-type plasminogen activator receptor (uPAR) in glioblastoma. Methods: The uPAR messenger RNA expression of tumors from 19 glioblastoma patients was analyzed, and a cell culture derived from one of these patients was used to establish an orthotopic xenograft model of glioblastoma. Tumor growth was monitored using bioluminescence imaging. Five to six weeks after inoculation, all mice were scanned with small-animal PET/CT using two new uPAR PET ligands ( 64 Cu-NOTA-AE105 and 68 Ga-NOTA-AE105) and, for comparison, O-(2-18 F-fluoroethyl)-L-tyrosine ( 18 F-FET). One MRI scan was obtained for each mouse to confirm tumor location. The uPAR specificity of 64 Cu-NOTA-AE105 was confirmed by alignment of hematoxylin-and eosin-stained and uPAR immunohistochemistrystained slides of the brain with the activity distribution as determined using autoradiography. Results: uPAR expression was found in all 19 glioblastoma patient tumors, and high expression of uPAR correlated with decreased overall survival (P 5 0.04). Radiolabeling of NOTA-AE105 with 64 Cu and 68 Ga was straightforward, resulting in a specific activity of approximately 20 GBq/μmol and a radiochemical purity of more than 98% for 64 Cu-NOTA-AE105 and more than 97% for 68 Ga-NOTA-AE105. High image contrast resulting in clear tumor delineation was found for both 68 Ga-NOTA-AE105 and 64 Cu-NOTA-AE105. Absolute uptake in tumor was higher for 18 F-FET (3.5 ± 0.8 percentage injected dose [%ID]/g) than for 64 Cu-NOTA-AE105 (1.2 ± 0.4 %ID/g) or 68 Ga-NOTA-AE105 (0.4 ± 0.1 %ID/g). A similar pattern was observed in background brain tissue, where uptake was 1.9 ± 0.1 %ID/g for 18 F-fluorothymidine, compared with 0.05 ± 0.01 %ID/g for 68 Ga-NOTA-AE105 and 0.11 ± 0.02 %ID/g for 64 Cu-NOTA-AE105. The result was a significantly higher tumor-to-background ratio for both 68 Ga-NOTA-AE105 (7.6 ± 2.1, P , 0.05) and 64 Cu-NOTA-AE105 (10.6 ± 2.3, P , 0.01) than for 18 F-FET PET (1.8 ± 0.3). Autoradiography of brain slides confirmed that the accumulation of 64 Cu-NOTA-AE105 corresponded well with uPAR-positive cancer cells. Conclusion: On the basis of our translational study, uPAR PET may be a highly promising imaging biomarker for glioblastoma. Further clinical exploration of uPAR PET in glioblastoma is therefore justified.

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“…Increasingly, orthotopic transplantation is preferred since tumours growing subcutaneously have clearly different properties such as reduced metastases, increased encapsulation and, in many cases, increased levels of necrosis as they grow, suggesting differences in vascular function. 140 Modern small animal irradiators, which provide small defined focused beams and an ability to target the tumour from different angles have reduced concerns about normal tissue exposure and have largely obviated the need to use subcutaneous transplantation sites. [141][142][143][144] These current technologies are allowing investigation of treatment strategies not previously possible in small animals.…”

Section: Future Studiesmentioning

confidence: 99%