Modular nanotransporters: a versatile approach for enhancing nuclear delivery and cytotoxicity of Auger electron-emitting 125I.
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UNLABELLED: BACKGROUND: This study evaluates the potential utility of a modular nanotransporter (MNT) for enhancing the nuclear delivery and cytotoxicity of the Auger electron emitter 125I in cancer cells that overexpress the epidermal growth factor receptor (EGFR). METHODS: MNTs are recombinant multifunctional polypeptides that we have developed for achieving selective delivery of short-range therapeutics into cancer cells. MNTs contain functional modules for receptor binding, internalization, endosomal escape and nuclear translocation, thereby facilitating the transport of drugs from the cell surface to the nucleus. The MNT described herein utilized EGF as the targeting ligand and was labeled with 125I using N-succinimidyl-4-guanidinomethyl-3-[125I]iodobenzoate (SGMIB). Membrane binding, intracellular and nuclear accumulation kinetics, and clonogenic survival assays were performed using the EGFR-expressing A431 epidermoid carcinoma and D247 MG glioma cell lines. RESULTS: [125I]SGMIB-MNT bound to A431 and D247 MG cells with an affinity comparable to that of native EGF. More than 60% of internalized [125I]SGMIB-MNT radioactivity accumulated in the cell nuclei after a 1-h incubation. The cytotoxic effectiveness of [125I]SGMIB-MNT compared with 125I-labeled bovine serum albumin control was enhanced by a factor of 60 for D247 MG cells and more than 1,000-fold for A431 cells, which express higher levels of EGFR. CONCLUSIONS: MNT can be utilized to deliver 125I into the nuclei of cancer cells overexpressing EGFR, significantly enhancing cytotoxicity. Further evaluation of [125I]SGMIB-MNT as a targeted radiotherapeutic for EGFR-expressing cancer cells appears warranted.
Published Version (Please cite this version)10.1186/2191-219X-2-59
Publication InfoKoumarianou, E; Lupanova, TN; Rosenkranz, AA; Slastnikova, TA; Sobolev, AS; Vaidyanathan, Ganesan; & Zalutsky, Michael Rod (2012). Modular nanotransporters: a versatile approach for enhancing nuclear delivery and cytotoxicity of Auger electron-emitting 125I. EJNMMI Res, 2(1). pp. 59. 10.1186/2191-219X-2-59. Retrieved from https://hdl.handle.net/10161/11046.
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Professor in Radiology
Dr. Vaidyanathan is a professor in the Department of Radiology. He is a member of the Nuclear Medicine track of the Medical Physics Graduate Program. His research involves development of radiopharmaceuticals especially for oncologic applications. Some of the projects he is involved in are given below. I. New methods of radiohalogenating antibodies and its variants a) Development of ne
Jonathan Spicehandler, M.D. Distinguished Professor of Neuro Oncology, in the School of Medicine
The overall objective of our laboratory is the development of novel radioactive compounds for improving the diagnosis and treatment of cancer. This work primarily involves radiohalo-genation of biomolecules via site-specific approaches, generally via demetallation reactions. Radionuclides utilized for imaging include I-123, I-124 and F-18, the later two being of particular interest because they can be used for the quantification of biochemical and physiological processes in the living huma
Alphabetical list of authors with Scholars@Duke profiles.