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A method was developed to extract and quantify microcystins (MCs) from mouse liver with limits of quantification (LOQs) lower than previously reported. MCs were extracted from 40-mg liver samples using 85:15 (v:v) CH3CN:H2O containing 200 mM ZnSO4 and 1% formic acid. Solid-phase extraction with a C18 cartridge was used for sample cleanup. MCs were detected and quantified using HPLC-orbitrap-MS with simultaneous MS/MS detection of the 135.08 m/z fragment from the conserved Adda amino acid for structural confirmation. The method was used to extract six MCs (MC-LR, MC-RR, MC-YR, MC-LA, MC-LF, and MC-LW) from spiked liver tissue and the MC-LR cysteine adduct (MC-LR-Cys) created by the glutathione detoxification pathway. Matrix-matched internal standard calibration curves were constructed for each MC (R2 ≥ 0.993), with LOQs between 0.25 ng per g of liver tissue (ng/g) and 0.75 ng/g for MC-LR, MC-RR, MC-YR, MC-LA, and MC-LR-Cys, and 2.5 ng/g for MC-LF and MC-LW. The protocol was applied to extract and quantify MC-LR and MC-LR-Cys from the liver of mice that had been gavaged with 50 µg or 100 µg of MC-LR per kg bodyweight and were euthanized 2 h, 4 h, or 48 h after final gavage. C57Bl/6J (wild type, control) and Leprdb/J (experiment) mice were used as a model to study non-alcoholic fatty liver disease. The Leprdb/J mice were relatively inefficient in metabolizing MC-LR into MC-LR-Cys, which is an important defense mechanism against MC-LR exposure. Trends were also observed as a function of MC-LR gavage amount and time between final MC-LR gavage and euthanasia/organ harvest.
David Baliu-Rodriguez; Daria Kucheriavaia; Dilrukshika S. W. Palagama; Apurva Lad; Grace M. O’Neill; Johnna A. Birbeck; David J. Kennedy; Steven T. Haller; Judy A. Westrick; Dragan Isailovic. Development and Application of Extraction Methods for LC-MS Quantification of Microcystins in Liver Tissue. Toxins 2020, 12, 263 .
AMA StyleDavid Baliu-Rodriguez, Daria Kucheriavaia, Dilrukshika S. W. Palagama, Apurva Lad, Grace M. O’Neill, Johnna A. Birbeck, David J. Kennedy, Steven T. Haller, Judy A. Westrick, Dragan Isailovic. Development and Application of Extraction Methods for LC-MS Quantification of Microcystins in Liver Tissue. Toxins. 2020; 12 (4):263.
Chicago/Turabian StyleDavid Baliu-Rodriguez; Daria Kucheriavaia; Dilrukshika S. W. Palagama; Apurva Lad; Grace M. O’Neill; Johnna A. Birbeck; David J. Kennedy; Steven T. Haller; Judy A. Westrick; Dragan Isailovic. 2020. "Development and Application of Extraction Methods for LC-MS Quantification of Microcystins in Liver Tissue." Toxins 12, no. 4: 263.
Based on current structural and statistical calculations, thousands of microcystins (MCs) can exist; yet, to date, only 246 MCs were identified and only 12 commercial MC standards are available. Standard mass spectrometry workflows for known and unknown MCs need to be developed and validated for basic and applied harmful algal bloom research to advance. Our investigation focuses on samples taken in the spring of 2018 from an impoundment fed by Oser and Bischoff Reservoirs, Indiana, United States of America (USA). The dominant cyanobacterium found during sampling was Planktothrix agardhii. The goal of our study was to identify and quantify the MCs in the impoundment sample using chemical derivatization and mass spectrometry. Modifying these techniques to use online concentration liquid chromatography tandem mass spectrometry (LC–MS/MS), two untargeted MCs have been identified, [d-Asp3, Dhb7]-MC-LR and [Dhb7]-MC-YR. [Dhb7]-MC-YR is not yet reported in the literature to date, and this was the first reported incidence of Dhb MCs in the United States. Furthermore, it was discovered that the commercially available [d-Asp3]-MC-RR standard was [d-Asp3, Dhb7]-MC-RR. This study highlights a workflow utilizing online concentration LC–MS/MS, high-resolution MS (HRMS), and chemical derivatization to identify isobaric MCs.
Johnna A. Birbeck; Nicholas J. Peraino; Grace M. O’Neill; Julia Coady; Judy A. Westrick. Dhb Microcystins Discovered in USA Using an Online Concentration LC–MS/MS Platform. Toxins 2019, 11, 653 .
AMA StyleJohnna A. Birbeck, Nicholas J. Peraino, Grace M. O’Neill, Julia Coady, Judy A. Westrick. Dhb Microcystins Discovered in USA Using an Online Concentration LC–MS/MS Platform. Toxins. 2019; 11 (11):653.
Chicago/Turabian StyleJohnna A. Birbeck; Nicholas J. Peraino; Grace M. O’Neill; Julia Coady; Judy A. Westrick. 2019. "Dhb Microcystins Discovered in USA Using an Online Concentration LC–MS/MS Platform." Toxins 11, no. 11: 653.
Fast and reliable workflows are needed to quantitate microcystins (MCs), a ubiquitous class of hepatotoxic cyanotoxins, so that the impact of human and environmental exposure is assessed quickly and minimized. Our goal was to develop a high-throughput online concentration liquid chromatography tandem mass spectrometry (LC/MS/MS) workflow to quantitate the 12 commercially available MCs and nodularin in surface and drinking waters. The method run time was 8.5 min with detection limits in the low ng/L range and minimum reporting levels between 5 and 10 ng/L. This workflow was benchmarked by determining the prevalence of MCs and comparing the Adda-ELISA quantitation to our new workflow from 122 samples representing 31 waterbodies throughout Michigan. The frequency of MC occurrence was MC-LA > LR > RR > D-Asp3-LR > YR > HilR > WR > D-Asp3-RR > HtyR > LY = LW = LF, while MC-RR had the highest concentrations. MCs were detected in 33 samples and 13 of these samples had more than 20% of their total MC concentration from MCs not present in US Environmental Protection Agency (US EPA) Method 544. Furthermore, seasonal deviations between the LC/MS/MS and Adda-ELISA data suggest Adda-ELISA cross-reacts with MC degradation products. This workflow provides less than 24-h turnaround for quantification and also identified key differences between LC/MS/MS and ELISA quantitation that should be investigated further.
Johnna A. Birbeck; Judy A. Westrick; Grace M. O’Neill; Brian Spies; David C. Szlag. Comparative Analysis of Microcystin Prevalence in Michigan Lakes by Online Concentration LC/MS/MS and ELISA. Toxins 2019, 11, 13 .
AMA StyleJohnna A. Birbeck, Judy A. Westrick, Grace M. O’Neill, Brian Spies, David C. Szlag. Comparative Analysis of Microcystin Prevalence in Michigan Lakes by Online Concentration LC/MS/MS and ELISA. Toxins. 2019; 11 (1):13.
Chicago/Turabian StyleJohnna A. Birbeck; Judy A. Westrick; Grace M. O’Neill; Brian Spies; David C. Szlag. 2019. "Comparative Analysis of Microcystin Prevalence in Michigan Lakes by Online Concentration LC/MS/MS and ELISA." Toxins 11, no. 1: 13.