Journal
EUROPEAN JOURNAL OF NUCLEAR MEDICINE AND MOLECULAR IMAGING
Volume 35, Issue 8, Pages 1489-1498Publisher
SPRINGER
DOI: 10.1007/s00259-008-0744-y
Keywords
paclitaxel (PTX); dimeric RGD peptide; integrin alpha(v)beta(3); targeted drug delivery; cancer therapy; molecular imaging
Funding
- NCI NIH HHS [R21 CA121842, R01 CA119053, P50 CA114747, R21 CA102123, R24 CA93862, U54 CA119367] Funding Source: Medline
- PHS HHS [R01 120188] Funding Source: Medline
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Purpose Targeting drugs to receptors involved in tumor angiogenesis has been demonstrated as a novel and promising approach to improve cancer treatment. In this study, we evaluated the anti-tumor efficacy of a dimeric RGD peptide-paclitaxel conjugate (RGD2-PTX) in an orthotopic MDA-MB-435 breast cancer model. Methods To assess the effect of conjugation and the presence of drug moiety on the MDA-MB-435 tumor and normal tissue uptake, the biodistribution of H-3-RGD2-PTX was compared with that of H-3-PTX. The treatment effect of RGD2-PTX and RGD2+PTX was measured by tumor size, F-18-FDG/PET, F-18-FLT/PET, and postmortem histopathology. Results By comparing the biodistribution of H-3-RGD2-PTX and H-3-PTX, we found that H-3-RGD2-PTX had higher initial tumor exposure dose and prolonged tumor retention than H-3-PTX. Metronomic low-dose treatment of breast cancer indicated that RGD2-PTX is significantly more effective than PTX+RGD2 combination and solvent control. Although in vivo F-18-FLT/PET imaging and ex vivo Ki67 staining indicated little effect of the PTX-based drug on cell proliferation, F-18-FDG/PET imaging showed significantly reduced tumor metabolism in the RGD2-PTX-treated mice versus those treated with RGD2+PTX and solvent control. Terminal uridine deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL) staining also showed that RGD2-PTX treatment also had significantly higher cell apoptosis ratio than the other two groups. Moreover, the microvessel density was significantly reduced after RGD2-PTX treatment as determined by CD31 staining. Conclusions Our results demonstrate that integrin-targeted delivery of paclitaxel allows preferential cytotoxicity to integrin-expressing tumor cells and tumor vasculature. The targeted delivery strategies developed in this study may also be applied to other chemotherapeutics for selective tumor killing.
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