PEGylation and Biodistribution of an anti-MUC1 Aptamer in MCF-7 Tumor-Bearing Mice

Citations Over TimeTop 22% of 2012 papers

Abstract

Aptamers are characterized by a rapid renal clearance leading to a short in vivo circulating half-life. In order to use aptamers as anticancer therapeutic agents, their exposure time to the tumor has to be enhanced via increasing residency in the bloodstream. A way to achieve this goal is by conjugating the aptamer to poly(ethylene glycol) (PEG). Herein, we present the conjugation of a bifunctionalized anti-MUC1 aptamer (NH(2)-AptA-SR) with the (99m)Tc coordinating moiety MAG2 and either a conventional branched PEG or the comb-shaped PolyPEG via a two-step synthesis. The isolated products were radiolabeled with (99m)Tc and their biodistribution and tumor-targeting properties in MCF-7 tumor bearing mice were analyzed and compared.

Related Papers

• → Aptamer cocktails: Enhancement of sensing signals compared to single use of aptamers for detection of bacteria(2013)87 cited
• → An aptamer cocktail-based electrochemical aptasensor for direct capture and rapid detection of tetracycline in honey(2019)40 cited
• → Idiosyncrasies of Thermofluorimetric Aptamer Binding Assays(2019)10 cited
• → Selecting DNA aptamers for endotoxin separation(2015)5 cited
• → Aptameric sensors based on structural change for diagnosis(2010)9 cited