Reza Mohammadi1, Bahareh Shokri2, Danial Shamshirian3, Afshin Zarghi4, Soraya Shahhosseini5. 1. Department of Pharmaceutical Chemistry and Radiopharmacy, School of Pharmacy, and Chronic Respiratory Diseases Research Center, National Research Institute of Tuberclosis and Lung Diseases (NRTLD), Shahid Beheshti University of Medical Sciences, Tehran, Iran. 2. Department of Pharmaceutical Chemistry and Radiopharmacy, School of Pharmacy, Shahid Behesti University of Medical Sciences, and Food and Drug Control Laboritories, Food and Drug Laboratory Research Center, MOE and ME, Tehran, Iran. 3. Chronic Respiratory Diseases Research Center, National Research Institute of Tuberclosis and Lung Diseases (NRTLD), Shahid Beheshti University of Medical Sciences, Tehran, Iran. 4. Department of Pharmaceutical Chemistry and Radiopharmacy, School of Pharmacy, Shahid Behesti University of Medical Sciences, Tehran, Iran. zarghi@sbmu.ac.ir. 5. Department of Pharmaceutical Chemistry and Radiopharmacy, School of Pharmacy, and Protein Technology Research Center, Shahid Behesti University of Medical Sciences, Vali-e Asr Ave., Niayesh Junction, P.O. Box 14155-6153, Tehran, Iran. s_shahoseini@sbmu.ac.ir.
Abstract
BACKGROUND: Integrins are interesting targets in oncology. RGD sequence has high affinity for αVβ3 integrin receptors. Diagnostic/therapeutic agents can be selectively delivered into cancer cells overexpressing αVβ3 integrin by using RGD as a carrier. Nonsteroidal anti-inflammatory drugs (NSAIDs) have shown anticancer properties in in vitro and in vivo studies. The anti-cancer properties of NSAIDs occur though COX-2 inhibition. Regarding the anti-cancer properties of NSAIDs and overexpression of COX-2 enzyme in cancer cells, targeted delivery of NSAIDs into cancer cells to maximize their efficiency and minimize their side effects may gain increased clinical interest. OBJECTIVES: In this study, RGD was conjugated to ketoprofen/Naproxen to selectively transfer these non-selective COX inhibitors into cancer cells. METHODS: Keto/Nap-RGD-N4 peptides were synthesized based on solid phase fmoc peptide synthesis. Radiolabeling with [99mTc] via N4 (GGAG) ligand was done for biological evaluation. Affinity and specificity of Keto/Nap-RGD-N4 to integrin was determined using A2780, OVCAR-3, SKOV-3 and HT-1080 cell lines. Percentage of Intenalization was measured in A2780 cells. Biodistriburion was studied in normal and tumor model mice. RESULTS: Radiolabeled compounds showed high affinity to cells expressing αVβ3 integrin in comparison to cells not expressing αVβ3. The affinity to A2780 was significantly higher than OVCAR-3 cells. The %internalization into A2780 cells was quite low. Compounds showed more than 50% inhibition on A2780 and OVCAR-3 cells, less than 10% on MCF-7 and HT-1080 cells and no cytotoxicity on fibroblast cells after 48 h incubation. Although uptake of radiolabeled compounds in tumor was high at 1 h post-injection, the tumor/blood ratio was less than 1.5 which made SPECT imaging impossible. CONCLUSION: Provided that NSAID drugs are conjugated to RGD, there will be a selective delivery to target tissues as well as synergetic anti-tumor effects which reduce systemic doses and toxicity. Graphical abstract.
BACKGROUND: Integrins are interesting targets in oncology. RGD sequence has high affinity for αVβ3 integrin receptors. Diagnostic/therapeutic agents can be selectively delivered into cancer cells overexpressing αVβ3 integrin by using RGD as a carrier. Nonsteroidal anti-inflammatory drugs (NSAIDs) have shown anticancer properties in in vitro and in vivo studies. The anti-cancer properties of NSAIDs occur though COX-2 inhibition. Regarding the anti-cancer properties of NSAIDs and overexpression of COX-2 enzyme in cancer cells, targeted delivery of NSAIDs into cancer cells to maximize their efficiency and minimize their side effects may gain increased clinical interest. OBJECTIVES: In this study, RGD was conjugated to ketoprofen/Naproxen to selectively transfer these non-selective COX inhibitors into cancer cells. METHODS:Keto/Nap-RGD-N4 peptides were synthesized based on solid phase fmoc peptide synthesis. Radiolabeling with [99mTc] via N4 (GGAG) ligand was done for biological evaluation. Affinity and specificity of Keto/Nap-RGD-N4 to integrin was determined using A2780, OVCAR-3, SKOV-3 and HT-1080 cell lines. Percentage of Intenalization was measured in A2780 cells. Biodistriburion was studied in normal and tumor model mice. RESULTS: Radiolabeled compounds showed high affinity to cells expressing αVβ3 integrin in comparison to cells not expressing αVβ3. The affinity to A2780 was significantly higher than OVCAR-3 cells. The %internalization into A2780 cells was quite low. Compounds showed more than 50% inhibition on A2780 and OVCAR-3 cells, less than 10% on MCF-7 and HT-1080 cells and no cytotoxicity on fibroblast cells after 48 h incubation. Although uptake of radiolabeled compounds in tumor was high at 1 h post-injection, the tumor/blood ratio was less than 1.5 which made SPECT imaging impossible. CONCLUSION: Provided that NSAID drugs are conjugated to RGD, there will be a selective delivery to target tissues as well as synergetic anti-tumor effects which reduce systemic doses and toxicity. Graphical abstract.
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