[Isomeric specific analysis of hydroxyeicosatetraenoic acid in blood samples from obese patients with non-alcoholic and alcoholic steatohepatitis].

m/z 219; for 11-HETE m/z 319 --> m/z 167; for5-HETE m/z 319 --> m/z 115. Patients' body composition was evaluated by bioelectrical impedance, resting energy expenditures (REE) were assessed by indirect calorimetry and nutrition pattern was examined by foodfrequency questionnaire. Mean age, BMI and ALT serum level were similar in patients from ASH and NASH groups. Blood plasma 8+12-HETE concentration was also similar in both groups of patients, but concentration of 15-HETE (21,6±20,2 vs 11,9±13,7µg/ml, p =0,02) and 11-HETE (20,8±21,3 vs 11,2+12,9 ug/ml, p =0,03) was significantly higher in NASH patients. ASHpatients demonstrated higher lean body mass (68,1±10,6 vs 57,9±9,8 kg, p<0,001) and muscle mass (39,3±6,1 vs 33,2±6,8 kg, p<0,04) and higher rate of protein oxidation (98,5±3 1 vs 76,2±21,1 g/day, p= 0,02) recalculated from REE. There were no differences found in blood lipids content as well as in consumption of total dietary fat, however, there was a trend to difference in saturated/unsaturated fatty acids ratio between groups (2,3±0,2.in NASH and 1,4±0,3 in ASH patients). In conclusion, the rate of production of eicosatetraenoic acid metabolites by lipoxygenase pathway is different in NASH and ASH overweight patients. It means that possibly different mechanisms are responsible for formation of potentially toxic fatty acids metabolites in these two types of patients. It seems likely that differences in fatty acids consumption pattern are related to this metabolic pathway. -->
Substance Nomenclature: 0 (Dietary Fats)
0 (Hydroxyeicosatetraenoic Acids)
Entry Date(s): Date Created: 20150331 Date Completed: 20150417 Latest Revision: 20150328
Update Code: 20240829
PMID: 25816621
Autor: Selezneva KS, Isakov VA, Éller KI, Goriainov SV, Kirillova OO, Sentsova TB
Jazyk: ruština
Zdroj: Voprosy pitaniia [Vopr Pitan] 2014; Vol. 83 (5), pp. 12-9.
Abstrakt: The aim of the study was to perform isomeric analysis of hydroxyeicosatetraenoic acid (HETE) in blood samples from obese patients with non-alcoholic (NASH) and alcoholic (ASH) steatohepatitis. Sixty nine obese patients with liver steatosis according to abdominal US data and chronic ALT elevation were assign into two groups aecoriing to the evaluation of alcohol consumption by GAGE and AUDIT questionnaires: NASH - 39 patients and ASH - 30 patients. The identification and quantification of 5(S)-hydroxyeicosatetraenoic acid (5-HETE), 15-HETE and also non-enzymatic oxidation product 11-HETE in blood plasma were carried out by HPLC-MS-TOF with using 2-hydroxyoctanoic acid as internal standard. The position of hydroxyl group in HETE was elucidated by HPLC-MS/MS. The MS/MS transitions were for 15-HETE m/z 319 ---> m/z 219; for 11-HETE m/z 319 --> m/z 167; for5-HETE m/z 319 --> m/z 115. Patients' body composition was evaluated by bioelectrical impedance, resting energy expenditures (REE) were assessed by indirect calorimetry and nutrition pattern was examined by foodfrequency questionnaire. Mean age, BMI and ALT serum level were similar in patients from ASH and NASH groups. Blood plasma 8+12-HETE concentration was also similar in both groups of patients, but concentration of 15-HETE (21,6±20,2 vs 11,9±13,7µg/ml, p =0,02) and 11-HETE (20,8±21,3 vs 11,2+12,9 ug/ml, p =0,03) was significantly higher in NASH patients. ASHpatients demonstrated higher lean body mass (68,1±10,6 vs 57,9±9,8 kg, p<0,001) and muscle mass (39,3±6,1 vs 33,2±6,8 kg, p<0,04) and higher rate of protein oxidation (98,5±3 1 vs 76,2±21,1 g/day, p= 0,02) recalculated from REE. There were no differences found in blood lipids content as well as in consumption of total dietary fat, however, there was a trend to difference in saturated/unsaturated fatty acids ratio between groups (2,3±0,2.in NASH and 1,4±0,3 in ASH patients). In conclusion, the rate of production of eicosatetraenoic acid metabolites by lipoxygenase pathway is different in NASH and ASH overweight patients. It means that possibly different mechanisms are responsible for formation of potentially toxic fatty acids metabolites in these two types of patients. It seems likely that differences in fatty acids consumption pattern are related to this metabolic pathway.
Databáze: MEDLINE
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