Electro-Engineered Polymeric Films for the Development of Sensitive Aptasensors for Prostate Cancer Marker Detection
Journal
Acs Sensors
Pages
1308-13141
Date Issued
2016
Author(s)
Abstract
We report the development of a simple surface chemistry strategy for the construction of sensitive aptasensors on a polypyrrole (PPy)-polyethylene glycol (PEG) platform in order to provide enhanced antifouling properties. We report the covalent modification of a PPy film formed on a gold electrode by PEG molecules, without prior chemical functionalization of the pyrrole monomer. This process was mediated by electro-oxidation of amine groups present on the one of the PEG end chains. Polyhistidine modified aptamers were immobilized to this surface via a Nα,Nα-Bis(carboxymethyl)-l-lysine ANTA/Cu2+ redox complex covalently attached to the PPy-PEG adduct. The fabricated aptasensor was then utilized for the detection of α-methylacyl-CoA racemase (AMACR; P504S), an emerging biomarker for prostate cancer. Protein/aptamer interactions were monitored through variation of the copper redox signal, using the square wave voltammetry (SWV) technique. We demonstrate that the PPy-PEG-ANTA/Cu2+ hybrid material is characterized by enhanced antifouling properties and sensitivity. The aptasensor was able to detect AMACR down to 5 fM in both buffer and spiked human plasma with a limit of detection (LOD) of 0.15 fM and 1.4 fM, respectively. The developed aptasensor can be generalized for use with any type of aptamer-based sensor. ? 2017 American Chemical Society.
Subjects
AMACR (P504S); amperometric; aptamer; aptasensor; electrochemical; PEG; polypyrrole; prostate cancer
SDGs
Other Subjects
Amino acids; Chemical modification; Diseases; Electrooxidation; Hybrid materials; Polyethylene glycols; Surface chemistry; Urology; Voltammetry; AMACR (P504S); Amperometric; Aptamers; aptasensor; electrochemical; Prostate cancers; Polypyrroles
Type
journal article