Literature DB >> 14506832

Chylomicron and VLDL TAG structures and postprandial lipid response induced by lard and modified lard.

Kaisa M Yli-Jokipii1, Ursula S Schwab, Raija L Tahvonen, Juha-Pekka Kurvinen, Hannu M Mykkänen, Heikki P T Kallio.   

Abstract

Alterations in chylomicron and VLDL TAG and the magnitude of postprandial lipemia were studied in healthy volunteers after two meals of equal FA composition but different TAG FA positional distribution. Molecular level information of individual lipoprotein TAG regioisomers was obtained with a tandem MS method. The incremental area under the response curve of VLDL TAG was larger (P = 0.021) after modified lard than after lard. In plasma TAG, the difference did not quite reach statistical significance (P = 0.086). In general, there were less TAG with palmitic acid in the sn-2 position and more TAG with oleic acid in the sn-2 position in chylomicrons than in fat ingested. From 1.5 to 8 h postprandially, the proportion of individual chylomicron TAG was constant or influenced by TAG M.W. VLDL TAG regioisomerism was similar regardless of the positional distribution of fat ingested. Significant alterations were seen in VLDL TAG FA, in M.W. fractions, and in individual regioisomers with respect to time. The TAG sn-14:0-18:1-18:1 + sn-18:1-18:1-14:0, sn-16:0-16:1-18:1 + sn-18:1-16:1-16:0, and sn-16:1-18:1-18:1 + sn-18:1-18:1-16:1 decreased (P < 0.05); and sn-16:0-16:0-18:2 + sn-18:2-16:0-16:0, sn-16:0-16:0-18:1 + sn-18:1-16:0-16:0, sn-16:0-18:1-16:0, and sn-16:0-18:1-18:2 + sn-18:2-18:1-16:0 increased (P < 0.05) after both meals. In conclusion, positional distribution of TAG FA was found to affect postprandial lipid metabolism in healthy normolipidemic subjects.

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Year:  2003        PMID: 14506832     DOI: 10.1007/s11745-003-1117-6

Source DB:  PubMed          Journal:  Lipids        ISSN: 0024-4201            Impact factor:   1.880


  36 in total

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2.  Effects of palm oil and transesterified palm oil on chylomicron and VLDL triacylglycerol structures and postprandial lipid response.

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Journal:  J Lipid Res       Date:  2001-10       Impact factor: 5.922

3.  Triacylglycerol molecular weight and to a lesser extent, fatty acid positional distribution, affect chylomicron triacylglycerol composition in women.

Authors:  Kaisa M Yli-Jokipii; Ursula S Schwab; Raija L Tahvonen; Juha-Pekka Kurvinen; Hannu M Mykkänen; Heikki P T Kallio
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4.  The effect of triacylglycerol-fatty acid positional distribution on postprandial metabolism in subcutaneous adipose tissue.

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5.  The effect of triacylglycerol fatty acid positional distribution on postprandial plasma metabolite and hormone responses in normal adult men.

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8.  Postprandial lipemic response is modified by the polymorphism at codon 54 of the fatty acid-binding protein 2 gene.

Authors:  J J Agren; R Valve; H Vidgren; M Laakso; M Uusitupa
Journal:  Arterioscler Thromb Vasc Biol       Date:  1998-10       Impact factor: 8.311

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Authors:  J G Hamilton; K Comai
Journal:  Lipids       Date:  1988-12       Impact factor: 1.880

10.  Effect of dietary triacylglycerol structure on lipoprotein metabolism: a comparison of the effects of dioleoylpalmitoylglycerol in which palmitate is esterified to the 2- or 1(3)-position of the glycerol.

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  13 in total

1.  Positional distribution of decanoic acid: effect on chylomicron and VLDL TAG structures and postprandial lipemia.

Authors:  Kaisa M Yli-Jokipii; Ursula S Schwab; Raija L Tahvonen; Xuebing Xu; Huiling Mu; Heikki P T Kallio
Journal:  Lipids       Date:  2004-04       Impact factor: 1.880

2.  Regiospecific determination of short-chain triacylglycerols in butterfat by normal-phase HPLC with on-line electrospray-tandem mass spectrometry.

Authors:  P Kalo; A Kemppinen; V Ollilainen; A Kuksis
Journal:  Lipids       Date:  2004-09       Impact factor: 1.880

3.  Effects of triacylglycerol structure and solid fat content on fasting responses of mice.

Authors:  Xiaosan Wang; Tong Wang; Michael E Spurlock; Xingguo Wang
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4.  Analysis of triacylglycerols of seeds and berries of sea buckthorn (Hippophaë rhamnoides) of different origins by mass spectrometry and tandem mass spectrometry.

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Journal:  Lipids       Date:  2006-04       Impact factor: 1.880

5.  Palmitic acid-rich oils with and without interesterification lower postprandial lipemia and increase atherogenic lipoproteins compared with a MUFA-rich oil: A randomized controlled trial.

Authors:  Charlotte E Mills; Scott V Harding; Mariam Bapir; Giuseppina Mandalari; Louise J Salt; Robert Gray; Barbara A Fielding; Peter J Wilde; Wendy L Hall; Sarah E Berry
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Review 6.  Effects of Lipid Structure Changed by Interesterification on Melting Property and Lipemia.

Authors:  Tong Wang; Xiaosan Wang; Xingguo Wang
Journal:  Lipids       Date:  2016-08-24       Impact factor: 1.880

7.  Influence of interesterification of a stearic acid-rich spreadable fat on acute metabolic risk factors.

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8.  Lipidomic profiling of chylomicron triacylglycerols in response to high fat meals.

Authors:  Maxine P Bonham; Kaisa M Linderborg; Aimee Dordevic; Amy E Larsen; Kay Nguo; Jacquelyn M Weir; Petra Gran; Marika K Luotonen; Peter J Meikle; David Cameron-Smith; Heikki P T Kallio; Andrew J Sinclair
Journal:  Lipids       Date:  2012-11-03       Impact factor: 1.880

9.  Palmitic acid in the sn-2 position decreases glucose-dependent insulinotropic polypeptide secretion in healthy adults.

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10.  Differences in partitioning of meal fatty acids into blood lipid fractions: a comparison of linoleate, oleate, and palmitate.

Authors:  Leanne Hodson; Siobhán E McQuaid; Fredrik Karpe; Keith N Frayn; Barbara A Fielding
Journal:  Am J Physiol Endocrinol Metab       Date:  2008-10-21       Impact factor: 4.310
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