ANTIOXIDATIVE CAPACITY OF WINE ON HUMAN LDL OXIDATION IN-VITRO - EFFECT OF SKIN CONTACT IN WINEMAKING OF WHITE WINE

Citation
I. Hurtado et al., ANTIOXIDATIVE CAPACITY OF WINE ON HUMAN LDL OXIDATION IN-VITRO - EFFECT OF SKIN CONTACT IN WINEMAKING OF WHITE WINE, Journal of agricultural and food chemistry, 45(4), 1997, pp. 1283-1289
Citations number
50
Categorie Soggetti
Food Science & Tenology",Agriculture,"Chemistry Applied
ISSN journal
00218561
Volume
45
Issue
4
Year of publication
1997
Pages
1283 - 1289
Database
ISI
SICI code
0021-8561(1997)45:4<1283:ACOWOH>2.0.ZU;2-7
Abstract
To assess the antioxidative effect of the non-alcoholic components of wine, human low-density lipoprotein (LDL) was oxidized in vitro by cop per ions in the presence of polyphenolic extracts from three wines: st andard red wine (R), standard white wine (W1), and white wine the must of which had been in contact with grape solids during 8 h before ferm entation (W2). Lipoprotein peroxidation was monitored as the formation of conjugated dienes, of thiobarbituric acid reactive substances (TEA RS), and fluorescent substances. At equal volume-of-extract additions to LDL, the lag phase of diene production increased proportionally wit h the polyphenol concentration of each extract. By the addition of equ al phenolic substance concentration (8 mu mol of gallic acid equiv/L) the timing of lag phase was 410 +/- 8, 442 +/- 11, and 516 +/- 57 min for W1, R, and W2 respectively compared to 78 +/- 6 min for control LD L without added extract. At 9 h of incubation, TEARS and fluorescence production were drastically inhibited by W1 but completely inhibited b y R and W2. At 24 h of oxidation only fluorescence was still inhibited . The results indicate that the polyphenols contained in wines could i nhibit protein derivatization but only delay lipid peroxidation and th at the type, as well as the concentrations, of polyphenols of the diff erent wines have varying protective effects. The wine-making process t hat includes the pre-incubation of the must with the grape skin prior to and during fermentation (red and certain white wines) was the most effective in preventing LDL oxidation in vitro.