Yuya Yamazaki

Serum choline plasmalogens, particularly those with oleic acid in sn-2, are associated with proatherogenic state

Serum plasmalogens (Pls) (1-O-alk-1’-enyl-2-acyl glycerophospholipids) are of particular interest for studies on metabolic disorders associated with oxidative stress and chronic inflammation. Serum levels of Pls are known to correlate positively with HDL-cholesterol (HDL-C); however, few studies have examined serum Pls molecular species in association with pathophysiological conditions and their clinical significance. To clarify these, we determined serum levels of individual ether glycerophospholipids in Japanese asymptomatic cohorts (n = 428; 362 male and 66 female subjects) by LC/MS/MS, and examined their correlations with clinical parameters. We found that the proportion of choline Pls (PlsCho) among total serum phospholipids was significantly lower in the male group over 40 years old and was associated with multiple risk parameters more strongly than HDL-C. The abundance of serum PlsCho with oleic acid (18:1) in sn-2 exhibited the strongest positive correlation with serum concentrations of adiponectin and HDL-C, while being inversely associated with waist circumference and the serum levels of TG and small dense LDL-cholesterol. The characterization of serum ether glycerophospholipids verified the specificity of PlsCho, particularly the ones with 18:1 in sn-2, as a sensitive biomarker for the atherogenic state.

Improvement and validation of 125I-high-performance liquid chromatography method for determination of total human serum choline and ethanolamine plasmalogens

Background Serum plasmalogens (Pls) have gained interest in several clinical symptoms such as metabolic syndrome/atherosclerosis or Alzheimers disease possibly because of their antioxidant properties. We have developed a highly sensitive and simple method to determine plasmenylcholine (PlsCho; choline plasmalogen) and plasmenylethanolamine (PlsEtn; ethanolamine plasmalogen) separately, using a radioactive iodine and high-performance liquid chromatography (125I-HPLC method). The present study reports the improvement and validation of 125I-HPLC method by introducing a quantitative standard (QS) and online detection with a flow γ-counter. Methods 1-Alkenyl 2,3-cyclic glycerophosphate was prepared as QS from l-α-lyso plasmenylcholine by enzymatic treatment with phospholipase D. Online detection with a flow γ-counter was investigated to be available to quantify Pls. The method validation was carried out in terms of selectivity, sensitivity, linearity, precision, accuracy and recovery. Results Linearity was established over the concentration range 5–300 μmol/L for Pls and QS with regression coefficients >0.99. The accuracy and reliability were satisfactory. The method has been applied to the determination of human serum Pls from healthy subjects and the elderly with dementia or artery stenoses. Conclusions The improved 125I-HPLC method is useful as an autoanalytical system for a routine diagnostic test of human serum Pls.

Lipids, fatty acids and hydroxy-fatty acids of Euphausia pacifica

Euphausia pacifica is a good candidate for a resource of marine n-3 PUFA. However, few reports exist of the lipid and fatty acid composition of E. pacifica. To examine the potential of E. pacifica as a resource of marine n-3 PUFA, we analyzed E. pacifica oil. We extracted lipids from E. pacifica harvested from the Pacific Ocean near Sanriku, Japan. Lipid classes of E. pacifica oil were analyzed by TLC-FID and the fatty acid composition of the oil was analyzed by GC/MS. Free fatty acids and hydroxy-fatty acids were analyzed by LC/QTOFMS. The lipid content of E. pacifica ranged from 1.30% to 3.57%. The ratios of triacylglycerols, phosphatidylcholine, phosphatidylethanolamine and free fatty acids in E. pacifica lipids were 5.3–23.0%, 32.6–53.4%, 8.5–25.4% and 2.5–7.0%, respectively. The content of n-3 PUFA in E. pacifica lipids was 38.6–46.5%. We also showed that E. pacifica contains unusual fatty acids and derivatives: C16-PUFAs (9,12-hexadecadienoic acid, 6,9,12-hexadecatrienoic acid and 6,9,12,15-hexadecatetraenoic acid) and hydroxy-PUFAs (8-HETE and 10-HDoHE). E. pacifica is a good resource of marine n-3 PUFA. Moreover, E. pacifica can provide C16-PUFA and hydroxy-PUFAs.

Modified Gas Chromatographic Method to Determine Monoacylglycerol and Diacylglycerol Contents in Edible Fats and Oils

Monoacylglycerol (MAG) and diacylglycerol (DAG) are minor components of edible fats and oils, and they relate to the quality of these foods. The AOCS official method Cd 11b-91 has been used to determine MAG and DAG contents in fats and oils. There are, however, difficulties in the determination of MAG and DAG using this analytical procedure. Therefore, we improved this method by modifying the trimethylsilyl derivatization procedure and replacing the internal standard (IS) material. In our modified method, TMS-HT (mixture of hexamethyldisilazane and trimethylchlorosilane) was used for derivatization of MAG and DAG, which was followed by liquid-liquid extraction with water and n-hexane solution containing the IS, tricaprin. Using the modified method, we demonstrated superior repeatability in comparison with that of the AOCS method by reducing procedural difficulties. The relative standard deviation of distearin peak areas was 1.8% or 2.9% in the modified method, while it was 5.6% in the AOCS method. In addition, capillary columns, such as DB-1ht and DB-5ht could be used in this method.