Physiological uptake and retention of radiolabeled resveratrol loaded gold nanoparticles (99mTc-Res-AuNP) in colon cancer tissue.

When tagged with a suitable radionuclide, the cancer targeting properties of trans-resveratrol could be utilized to locate cancerous sites in the body using radionuclide imaging technique. However, the polyphenol due to its rapid and extensive metabolism exhibits low bioavailability in vivo. The study was designed to enhance the cancer targeting efficacy of radiolabeled resveratrol using nano-based technology. Technetium-99m labeled resveratrol loaded gold nanoparticles (Res-AuNP) were synthesized, characterized and evaluated for their cancer targeting efficacy in HT29 colon cancer cells and in animal cancer model. Results of various investigations were compared to corresponding results obtained for 99mTc-AuNP and 99mTc-resveratrol. Cancer cell internalization observed for 99mTc-Res-AuNP was significantly higher than that of 99mTc-AuNP and 99mTc-resveratrol. Also, a gradual rise in target to nontarget uptake with time was observed following i.v. administration of 99mTc-Res-AuNP to colon tumor bearing rats, demonstrating better in vivo targeting of colon adenocarcinoma with 99mTc-Res-AuNP when compared to 99mTc-resveratrol.