Browsing by Author "Brown A."
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Item Radioiodinated doxorubicin as a new tumor imaging model: preparation, biological evaluation, docking and molecular dynamics(Springer Netherlands, 2018) Ibrahim A.B.; Alaraby Salem M.; Fasih T.W.; Brown A.; Sakr T.M.; Labeled Compounds Department; Hot Labs Center; Atomic Energy Authority; Cairo; 13759; Egypt; Pharmaceutical Chemistry Department; Faculty of Pharmacy; October University of Modern Sciences and Arts (MSA); Giza; Egypt; Radioactive Isotopes and Generators Department; Hot Laboratories Centre; Atomic Energy Authority; Cairo; 13759; Egypt; Department of Chemistry; University of Alberta; Edmonton; CanadaAbstract: Non-invasive molecular imaging techniques are accruing more interest in the last decades. Several radiolabelling elements have been FDA-approved and are currently used to characterize tumors. In this study, the DNA intercalating agent doxorubicin was radiolabelled with 125I. Several parameters for the radiolabelling reaction were investigated and optimized. A maximum yield of 94 � 0.3% was reached after reacting 20�?g of doxorubicin with 200�?g Chloramine-T at pH 5 for 30�min. The in vivo stability of 125I-doxorubicin is validated by the low propensity for thyroid uptake in mice. The preclinical T/NT ratio was approximately 6.4 at 30 min. Docking and molecular dynamics confirmed that the radiolabelling of doxorubicin did not affect (or slightly improved its binding to DNA). Overall, 125I-doxorubicin was demonstrated to be a promising non-invasive probe for solid tumor imaging. Graphical Abstract: [Figure not available: see fulltext.]. � 2018, Akad�miai Kiad�, Budapest, Hungary.