AUTHOR=Ma Hui , Loscher Christine , Parle-McDermott Anne , Fitzgerald Jenny , Meneely Julie , Elliott Christopher , Welten Richard , Mchau Geofrey J. , Makule Edna , Machunda Revocatus , Gong Yun Yun , Kimanya Martin , Crawley Aoife , Maguire Ivan , Murphy Caroline , O’Kennedy Richard TITLE=Evaluation of a point-of-use device used for autoantibody analysis and its potential for following microcystin leucine-arginine exposure JOURNAL=Frontiers in Sensors VOLUME=5 YEAR=2024 URL=https://www.frontiersin.org/journals/sensors/articles/10.3389/fsens.2024.1302520 DOI=10.3389/fsens.2024.1302520 ISSN=2673-5067 ABSTRACT=

Introduction: Globally, the need for measuring exposure to algal toxins has become urgent due to ever-increasing reports of contamination in sea and freshwater, in shellfish and fish stocks and in aerosols.

Methods: To address this issue, we evaluated the potential of determining autoantibodies to a panel of biomarkers known to be elevated following exposure to the hepatotoxin microcystin leucine-arginine. The presence of autoantibodies, specific to four selected stress-response, metabolomic and chaperone biomarkers, namely, Heat shock protein 1, Triosephosphate isomerase, Peroxiredoxin 1 and Peroxiredoxin 2 was employed in screening 371 serum samples from microcystin-exposed individuals in Tanzania. In addition, the capacity of the LightDeck fluorescence-based detector, a point-of-use device, to monitor these autoantibody responses in comparison to enzyme-linked immunosorbent assay was evaluated.

Results: By using the determination of autoantibodies to this novel panel of biomarkers an altered response was observed following microcystin exposure, with levels generally upregulated. The presence of elevated levels of microcystin leucine-arginine in water, as well as in food sources in Tanzania, may potentially have significant health effects on the population.

Discussion: This novel biomarker panel may have potential for the detection of microcystin leucine-arginine exposure as well as various microcystin exposure-associated cancers (e.g., hepatocellular cancer and colorectal cancer). In addition, the utilisation of the LightDeck point-of-use device proved successful for the rapid analysis of this biomarker panel.