Development of analytical methods GC-MS vs LC-UV for the serum monitoring of an inflammatory glycotoxin (methylglyoxal): A new biomarker of bovine hepatobiliary distomatosis

Two analytical methods; high performance liquid chromatography and gas chromatography were used to determine the content of 2-methylquinoxaline, a methylglyoxal-derived agent in sera from cattle with fascioliasis. Methylglyoxal is a highly mutagenic and cytotoxic reactive dicarbonyl compound formed...

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Bibliographic Details
Published in:Biochimie 2020-01, Vol.168, p.169-184
Main Authors: Taïbi, Nadia, Taïbi, Amina, Ameraoui, Rachid, Abou-mustapha, Mohamed, Hadjadj, Mohamed, Boutaiba, Zahra-Mouna, Kaced, Amel, Djema, Souhila, Al-balas, Qosay-Ali, Al jabal, Ghazi-Ahmad, Aissi, Miriem, Harhoura, Khaled, Zenia, Safia, Khammar, Farida
Format: Article
Language:English
Subjects:
Animals
Anti-f2 antibody of Fasciola hepatica
Biomarkers - blood
Cattle
Chromatography, High Pressure Liquid - methods
Fasciola hepatica - isolation & purification
Fascioliasis - diagnosis
Fascioliasis - veterinary
Female
Gas Chromatography-Mass Spectrometry - methods
GC-MS
Glucose
HPLC-UV
Male
Methylglyoxal
Pyruvaldehyde - blood
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Summary:Two analytical methods; high performance liquid chromatography and gas chromatography were used to determine the content of 2-methylquinoxaline, a methylglyoxal-derived agent in sera from cattle with fascioliasis. Methylglyoxal is a highly mutagenic and cytotoxic reactive dicarbonyl compound formed by non-enzymatic fragmentation of triose phosphate GAP and DHAP during glycolysis which regularly contributes to repositioning the energetic balance between physiological and pathological situations. The aim of this study was to propose the MGO as a new biomarker in the bovine fasciolosis. Strongly infected animals showed a correlation between the relatively high levels of Fasciola hepatica anti-f2 antibody and methylglyoxal compared to unharmed animals. Also, an acute hyperglycemia was recorded and closely related to hepatic parenchyma hyperplasia, inflammation, bile ducts obstruction and scléro-fibrous foci formation.Unlike HPLC, which has shown analytical flaws and irregularities, GC-MS remains an excellent diagnostic tool for detecting and quantifying methylglyoxal in biological fluids. The developed method has been validated under FDA guidelines. A full scan-range was set from m/z 39 to 144/999 and the molecular weight of the 2-methylquinoxaline was identified according to NIST Database and ES. Methylglyoxal was the only analyte successfully quantified in a relatively short run time. It was linear over a concentration range of 0.057–5.7  μg.ml-1with mean recoveries and RSD of 118% and 3.63% respectively. The intra and inter-day assays were satisfying and not exceed 3.00%. Results reflect the degree of precision of our method and indicate that MGO was an important contributor to understand the hepatic failure independently of other serum markers. •Sera samples were derivatizated with the O-phenylenediamine.•The 2-methylquinoxaline analysis was performed and validated by GC-MS.•The levels of methylglyoxal and anti-f2 antibodies of fasciola are correlated.•Hyperglycemic state promotes methylglyoxal-induced hepatic failure.•Methylglyoxal is proposed as a biomarker in the bovine fasciolosis.
ISSN:0300-9084
1638-6183
DOI:10.1016/j.biochi.2019.11.002