Detection of breast cancer-related point-mutations using screen-printed and gold-plated electrochemical sensor arrays suitable for point-of-care applications

Vanessa Thoeny; Eva Melnik; Malahat Asadi; Pooyan Mehrabi; Thomas Schalkhammer; Walter Pulverer; Thomas Maier; Giorgio C. Mutinati; Peter Lieberzeit; Rainer Hainberger

Talanta Open (Dec 2022)

Detection of breast cancer-related point-mutations using screen-printed and gold-plated electrochemical sensor arrays suitable for point-of-care applications

Vanessa Thoeny,
Eva Melnik,
Malahat Asadi,
Pooyan Mehrabi,
Thomas Schalkhammer,
Walter Pulverer,
Thomas Maier,
Giorgio C. Mutinati,
Peter Lieberzeit,
Rainer Hainberger

Affiliations

Vanessa Thoeny: AIT Austrian Institute of Technology GmbH, Center for Health & Bioresources, Giefinggasse 4, 1210, Vienna, Austria; Corresponding author.
Eva Melnik: AIT Austrian Institute of Technology GmbH, Center for Health & Bioresources, Giefinggasse 4, 1210, Vienna, Austria
Malahat Asadi: Attophotonics Biosciences GmbH, Viktor Kaplan Straße 2, 2700 Wiener Neustadt, Austria
Pooyan Mehrabi: Attophotonics Biosciences GmbH, Viktor Kaplan Straße 2, 2700 Wiener Neustadt, Austria
Thomas Schalkhammer: Attophotonics Biosciences GmbH, Viktor Kaplan Straße 2, 2700 Wiener Neustadt, Austria
Walter Pulverer: AIT Austrian Institute of Technology GmbH, Center for Health & Bioresources, Giefinggasse 4, 1210, Vienna, Austria
Thomas Maier: AIT Austrian Institute of Technology GmbH, Center for Health & Bioresources, Giefinggasse 4, 1210, Vienna, Austria
Giorgio C. Mutinati: AIT Austrian Institute of Technology GmbH, Center for Health & Bioresources, Giefinggasse 4, 1210, Vienna, Austria
Peter Lieberzeit: University of Vienna, Faculty for Chemistry, Department of Physical Chemistry, Waehringer Strasse 42, 1090 Vienna, Austria
Rainer Hainberger: AIT Austrian Institute of Technology GmbH, Center for Health & Bioresources, Giefinggasse 4, 1210, Vienna, Austria

Journal volume & issue: Vol. 6
p. 100150

Abstract

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For anticancer therapy and disease prognosis in breast cancer, three PIK3CA point-mutations (H1047R, E545K, and E542K) play a significant role. To allow for specific and sensitive detection of these point-mutations with a hybridization-based detection concept, the assay conditions were optimized on a microarray technology platform. The resulting fluorescence-based microarray assay enables simultaneous and specific detection of three PIK3CA point-mutations. The optimized protocol was then adapted for use on a screen-printed and gold-plated silver sensor array with twelve working electrodes, one common counter electrode, and one common reference electrode. Chronoamperometric measurements employing an enzyme-amplified electrochemical assay allow for detecting PIK3CA point-mutations with a detection limit of 10 pM for short 24-mer target DNA. The mutant and the wild-type target DNA sequences gave significantly different signals in a broad concentration range of 1 nM – 100 nM, with the best separation found at 10 nM – 20 nM. Comparing the hybridization of short 24-mer and long 80-mer target DNA sequences reveals that the hybridization efficiency is reduced for long target DNA sequences. However, both the 24-mer and the 80-mer target DNA lead to successful detection of point-mutations. Finally, the electrochemical sensor allows for multiplexed detection of the three PIK3CA point-mutations.

Published in Talanta Open

ISSN: 2666-8319 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Chemistry: Analytical chemistry
Website: https://www.journals.elsevier.com/talanta-open

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