Effects of tomato juice consumption on plasma and lipoprotein carotenoid concentrations and the susceptibility of low density lipoprotein to oxidative modification
Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low...
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| Published in | Journal of Nutritional Science and Vitaminology Vol. 47; no. 3; pp. 213 - 221 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Tokyo
Center for Academic Publications Japan
2001
|
| Subjects | |
| Online Access | Get full text |
| ISSN | 0301-4800 1881-7742 1881-7742 |
| DOI | 10.3177/jnsv.47.213 |
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| Abstract | Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low and High groups consumed 480 g of a control drink, 160 g of tomato juice plus 320 g of the control drink, and 480 g of tomato juice, providing 0, 15 and 45 mg of lycopene, respectively, for one menstrual cycle. The ingestion of tomato juice, rich in lycopene but having little beta-carotene, increased both lycopene and beta-carotene. Sixty-nine percent of lycopene in plasma was distributed in the LDL fraction and 24% in the HDL fraction. In the Low group, the lycopene concentration increased 160% each in the VLDL+IDL, LDL and HDL fractions (rho < 0.01). In the High group, the lycopene concentration increased 270% each in the VLDL + IDL and LDL fractions, and 330% in the HDL fraction (rho < 0.01). beta-Carotene also increased 120%, and 180% in LDL fractions of the Low and the High groups, respectively. Despite these carotenoid increases in LDL, the lag time before oxidation was not prolonged as compared with that of the Control group. The propagation rate decreased significantly after consumption In the High group. Multiple regression analysis showed a positive correlation between lag time changes and changes in the alpha-tocopherol concentration per triglyceride in LDL, and a negative correlation between propagation rate changes and changes in the lycopene concentration per phospholipid in LDL. These data suggest that alpha-tocopherol is a major determinant in protecting LDL from oxidation, while lycopene from tomato juice supplementaion may contribute to protect phospholipid in LDL from oxidation. Thus, oral intake of lycopene might be beneficial for ameliorating atherosclerosis. |
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| AbstractList | Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low and High groups consumed 480 g of a control drink, 160 g of tomato juice plus 320 g of the control drink, and 480 g of tomato juice, providing 0, 15 and 45 mg of lycopene, respectively, for one menstrual cycle. The ingestion of tomato juice, rich in lycopene but having little beta-carotene, increased both lycopene and beta-carotene. Sixty-nine percent of lycopene in plasma was distributed in the LDL fraction and 24% in the HDL fraction. In the Low group, the lycopene concentration increased 160% each in the VLDL+IDL, LDL and HDL fractions (rho < 0.01). In the High group, the lycopene concentration increased 270% each in the VLDL + IDL and LDL fractions, and 330% in the HDL fraction (rho < 0.01). beta-Carotene also increased 120%, and 180% in LDL fractions of the Low and the High groups, respectively. Despite these carotenoid increases in LDL, the lag time before oxidation was not prolonged as compared with that of the Control group. The propagation rate decreased significantly after consumption In the High group. Multiple regression analysis showed a positive correlation between lag time changes and changes in the alpha-tocopherol concentration per triglyceride in LDL, and a negative correlation between propagation rate changes and changes in the lycopene concentration per phospholipid in LDL. These data suggest that alpha-tocopherol is a major determinant in protecting LDL from oxidation, while lycopene from tomato juice supplementaion may contribute to protect phospholipid in LDL from oxidation. Thus, oral intake of lycopene might be beneficial for ameliorating atherosclerosis. Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low and High groups consumed 480 g of a control drink, 160 g of tomato juice plus 320 g of the control drink, and 480 g of tomato juice, providing 0, 15 and 45 mg of lycopene, respectively, for one menstrual cycle. The in-gestion of tomato juice, rich in lycopene but having little β-carotene, increased both ly-copene and β-carotene. Sixty-nine percent of lycopene in plasma was distributed in the LDL fraction and 24% in the HDL fraction. In the Low group, the lycopene concentration in-creased 160% each in the VLDL+IDL, LDL and HDL fractions (p<0.01). In the High group, the lycopene concentration increased 270% each in the VLDL+IDL and LDL fractions, and 330% in the HDL fraction (p<0.01). β-Carotene also increased 120% and 180% in LDL fractions of the Low and the High groups, respectively. Despite these carotenoid increases in LDL, the lag time before oxidation was not prolonged as compared with that of the Control group. The propagation rate decreased significantly after consumption in the High group. Multiple regression analysis showed a positive correlation between lag time changes and changes in the α-tocopherol concentration per triglyceride in LDL, and a negative correla-tion between propagation rate changes and changes in the lycopene concentration per phospholipid in LDL. These data suggest that α-tocopherol is a major determinant in pro-tecting LDL from oxidation, while lycopene from tomato juice supplementaion may con-tribute to protect phospholipid in LDL from oxidation. Thus, oral intake of lycopene might be beneficial for ameliorating atherosclerosis. Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low and High groups consumed 480 g of a control drink, 160 g of tomato juice plus 320 g of the control drink, and 480 g of tomato juice, providing 0, 15 and 45 mg of lycopene, respectively, for one menstrual cycle. The ingestion of tomato juice, rich in lycopene but having little beta-carotene, increased both lycopene and beta-carotene. Sixty-nine percent of lycopene in plasma was distributed in the LDL fraction and 24% in the HDL fraction. In the Low group, the lycopene concentration increased 160% each in the VLDL+IDL, LDL and HDL fractions (p<0.01). In the High group, the lycopene concentration increased 270% each in the VLDL+IDL and LDL fractions, and 330% in the HDL fraction (p<0.01). Beta-carotene also increased 120% and 180% in LDL fractions of the Low and the High groups, respectively. Despite these carotenoid increases in LDL, the lag time before oxidation was not prolonged as compared with that of the Control group. The propagation rate decreased significantly after consumption in the High group. Multiple regression analysis showed a positive correlation between lag time changes and changes in the alpha-tocopherol concentration per triglyceride in LDL, and a negative correlation between propagation rate changes and changes in the lycopene concentration per phospholipid in LDL. These data suggest that alpha-tocopherol is a major determinant in protecting LDL from oxidation, while lycopene from tomato juice supplementaion may contribute to protect phospholipid in LDI, from oxidation. Thus, oral intake of lycopene might be beneficial for ameliorating atherosclerosis. Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low and High groups consumed 480 g of a control drink, 160 g of tomato juice plus 320 g of the control drink, and 480 g of tomato juice, providing 0, 15 and 45 mg of lycopene, respectively, for one menstrual cycle. The ingestion of tomato juice, rich in lycopene but having little beta-carotene, increased both lycopene and beta-carotene. Sixty-nine percent of lycopene in plasma was distributed in the LDL fraction and 24% in the HDL fraction. In the Low group, the lycopene concentration increased 160% each in the VLDL+IDL, LDL and HDL fractions (p<0.01). In the High group, the lycopene concentration increased 270% each in the VLDL+IDL and LDL fractions, and 330% in the HDL fraction (p<0.01). Beta-carotene also increased 120% and 180% in LDL fractions of the Low and the High groups, respectively. Despite these carotenoid increases in LDL, the lag time before oxidation was not prolonged as compared with that of the Control group. The propagation rate decreased significantly after consumption in the High group. Multiple regression analysis showed a positive correlation between lag time changes and changes in the alpha-tocopherol concentration per triglyceride in LDL, and a negative correlation between propagation rate changes and changes in the lycopene concentration per phospholipid in LDL. These data suggest that alpha-tocopherol is a major determinant in protecting LDL from oxidation, while lycopene from tomato juice supplementaion may contribute to protect phospholipid in LDI, from oxidation. Thus, oral intake of lycopene might be beneficial for ameliorating atherosclerosis.Effects of tomato juice supplementation on the carotenoid concentration in lipoprotein fractions and the oxidative susceptibility of LDL were investigated in 31 healthy Japanese female students. These subjects were randomized to one of three treatment groups; Control, Low and High. The Control, Low and High groups consumed 480 g of a control drink, 160 g of tomato juice plus 320 g of the control drink, and 480 g of tomato juice, providing 0, 15 and 45 mg of lycopene, respectively, for one menstrual cycle. The ingestion of tomato juice, rich in lycopene but having little beta-carotene, increased both lycopene and beta-carotene. Sixty-nine percent of lycopene in plasma was distributed in the LDL fraction and 24% in the HDL fraction. In the Low group, the lycopene concentration increased 160% each in the VLDL+IDL, LDL and HDL fractions (p<0.01). In the High group, the lycopene concentration increased 270% each in the VLDL+IDL and LDL fractions, and 330% in the HDL fraction (p<0.01). Beta-carotene also increased 120% and 180% in LDL fractions of the Low and the High groups, respectively. Despite these carotenoid increases in LDL, the lag time before oxidation was not prolonged as compared with that of the Control group. The propagation rate decreased significantly after consumption in the High group. Multiple regression analysis showed a positive correlation between lag time changes and changes in the alpha-tocopherol concentration per triglyceride in LDL, and a negative correlation between propagation rate changes and changes in the lycopene concentration per phospholipid in LDL. These data suggest that alpha-tocopherol is a major determinant in protecting LDL from oxidation, while lycopene from tomato juice supplementaion may contribute to protect phospholipid in LDI, from oxidation. Thus, oral intake of lycopene might be beneficial for ameliorating atherosclerosis. |
| Author | Oshima, S Maruyama, C. (Japan Women's Univ., Tokyo) Ishikawa, T Tonomoto, M Imamura, K Ayaori, M Suzukawa, M Egami, S Baba, N Harada, M Inakuma, T |
| Author_xml | – sequence: 1 fullname: Maruyama, C. (Japan Women's Univ., Tokyo) – sequence: 2 fullname: Imamura, K – sequence: 3 fullname: Oshima, S – sequence: 4 fullname: Suzukawa, M – sequence: 5 fullname: Egami, S – sequence: 6 fullname: Tonomoto, M – sequence: 7 fullname: Baba, N – sequence: 8 fullname: Harada, M – sequence: 9 fullname: Ayaori, M – sequence: 10 fullname: Inakuma, T – sequence: 11 fullname: Ishikawa, T |
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| CitedBy_id | crossref_primary_10_1016_j_yrtph_2006_05_007 crossref_primary_10_1097_01_MAT_0000138077_90404_C8 crossref_primary_10_2903_j_efsa_2011_2031 crossref_primary_10_1007_s13197_013_0932_z crossref_primary_10_1016_j_freeradbiomed_2004_01_014 crossref_primary_10_1089_jmf_2006_235 crossref_primary_10_1017_S0007114512004278 crossref_primary_10_2174_1381612829666230726112510 crossref_primary_10_3177_jnsv_59_264 crossref_primary_10_1038_sj_ejcn_1601723 crossref_primary_10_1016_j_jksus_2019_12_020 crossref_primary_10_1016_j_nut_2005_07_015 crossref_primary_10_1080_09637480600858134 crossref_primary_10_4137_BMI_S2192 crossref_primary_10_1186_1475_2891_3_15 crossref_primary_10_3177_jnsv_55_479 crossref_primary_10_3177_jnsv_59_S57 crossref_primary_10_1016_j_freeradbiomed_2017_04_345 crossref_primary_10_1093_jn_135_8_2032S crossref_primary_10_1080_07315724_2004_10719355 |
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| Keywords | Human Vegetables Vegetable juice Supplemented diet Tomato Lycopene Feeding Lipoprotein LDL Plant origin Young adult Female Oxidation Carotenoid |
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| References | 2) Ojima F, Sakamoto H, Ishiguro Y, Terao J. 1993. Consumption of carotenoids in photosensitized oxida-tion of human plasma and plasma low-density lipopro-tein. Free Radic Biol Med 15: 377-384. 17) Franceschi S, Bidoli E, La Vecchia C, Talamini R, D'Avanzo B, Negri E. 1994. Tomatoes and risk of diges-tive-tract cancer. Int J Cancer 50:181-184. 32) Ziouzenkova 0, Sevanian A, Abuja PM, Ramos P, Esterbauer H. 1998. Copper can promote oxidation of LDL by markedly different mechanisms. Free Radic Biol Med 24: 607-623. 3) Street DA, Comstock GW, Salkeld RM, Schi ep W, Klag MJ. 1994. Serum antioxidants and myocardial infarc-tion. Are low levels of carotenoids and α-tocopherol risk factors for myocardial infarction? Circulation 90: 1154-1161. 20) Esterbauer H, Striegl G, Puhl H, Rotheneder M. 1989. Continuous monitoring of in vitro oxidation of human low density lipoprotein. Free Radic Res Common 6: 67-75. 4) Yoshida H, Ishikawa T, Nakamura H. 1997. Vitamin E/lipid peroxide ratio and susceptibility of LDL to oxida-tive modification in non-insulin-dependent diabetes mellitus. Arterioscler Thromb Vasc Biol 17: 1438-1446. 13) Oshima S, Ojima F, Sakamoto H, Ishiguro Y, Terao J. 1996. Supplementaion with carotenoids inhibits sin-glet oxgen-mediated oxidation of humen plasma low-density lipoprotein. J Agric Food Chem 44: 2306-2309. 10) Ommen G, Goodman G, Thornquist M, Balmes J, Cullen M, Glass A, Keogh J, Meyskens F, Valanis B, Williams J, Barnhart S, Hammar S. 1996. Effects of a combination of β-carotene and vitamin A on lung cancer and car-diovascular disease. NEngl J Med 334:1150-1155. 18) Ministry of Health and Welfare, Health Service Bureau, Community Health, Health Promotion and Nutrition Division. 2000. Report for National Nutrition Servey in 1998. p 41-42. Daiichi Shuppan, Tokyo (in Japanese). 22) Oshima S, Ojima F, Sakamoto H, Ishiguro Y, Terao J. 1993. Inhibitory effect of β-carotene and astaxanthin on photosensitized oxidation of phospholipid bilayers. J Nutr Sci Vitaminol 39: 607-615. 36) Rice-Evans CA, Sampson J, Bramley PM, Holloway DE. 1997. Why do we expect carotenoids to be antioxidants in vivo? Free Radic Res 26: 381-398. 12) Gerster H. 1997. The potential role of lycopene for human health. J Am College Nutr 16: 109-126. 15) VanEenwyk J, Davis FG, Brown PE. 1991. Dietary and serum carotenoids and cervical intraepithelial neopla-sia. Int J Cancer 48: 34-38. 24) Agarwal S, Rao AV. 1998. Tomato lycopene and low density lipoprotein oxidation: A human dietary inter-vention study. Lipids 33: 981-984. 28) Niki E, Noguchi N, Tsuchihashi H, Gotoh N. 1995. Interaction among vitamin C, vitamin E, and β-carotene. Am J Clin Nutr 62 (suppl): 1 322S-1326S. 6) Kristenson M, Zieden B, Kucinskiene Z, Elinder LS, Bergdahl B, Elwing B, Abaravicius A, Razinkoviene L, Calkauskas H, Olsson AG. 1997. Antioxidant state and mortality from coronary heart disease in Lithuanian and Swedish men: concomitant cross sectional study of men aged 50. BMJ 314: 629-633. 38) Stahl W, Sies H. 1996. Lycopene: A biologically impor-tant carotenoid for humans? Arch Biochem Biophys 336: 1-9 8) The alpha-tocopherol, beta carotene cancer prevention study group. 1994. The effect of vitamin E and beta carotene on the incidence of lung cancer and other cancers in male smokers. N Erngl J Med 330: 1029-1035. 9) Greenberg ER, Baron JA, Tosteson TD, Freeman DH, Beck GJ, Bond JH, Colacchio TA, Coller JA, Frankl HD, Haile RW, Mandel JS, Nierenberg DW, Rothstein R, Snover DC, Stevens MM, Summers RW, Van Stalk RU for the polyp prevention study group. 1994. A clinical trial of antioxidant vitamins to prevent colorectal adenoma. N Eng J Med 331:141-147. 1) Witztum JL. 1994. The oxidation hypothesis of athero-sclerosis. 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Oxidation of carotenoids by free radicals: rela-tionship between structure and reactivity. Biochim Biophys Acta 1336: 33-42. 11) Gaziano JM, Hatta A, Flynn M, Johnson EJ, Krinsky NI, Ridker PM, Hennekens CH, Frei B. 1995. Supplementation with β-carotene in vivo and in vitro dose not inhibit low density lipoprotein oxidation. Atherosclerosis 112: 187-195. 25) Sutherland WHF, Walker RJ, De Tong SA, Upritchard JE. 1999. Supplementation with tomato juice increases plasma lycopene but dose not alter susceptibility to oxi-dation of low-density lipoproteins from renal transplant recipients. Clin Nephrol 52: 30-36. 7) Reaven PD, Khouw A, Beltz WF, Parthasarathy S, Wiztum JL. 1993. Effect of dietary antioxidant combi-nations in humans. Protection of LDL by vitamin E but not by β-carotene. Arterioscler Thromb 13: 590-600. 21) Wagner JR, Motchnik PA, Stocker R, Sies H, Ames BN. 1993. The oxidation of blood plasma and low density lipoprotein components by chemically generated singlet oxygen. J Biol Chem 268:18502-18506. 31) Abuja PM, Albertini R, Esterbauer H. 1997. Simulation of the induction of oxidation of low-density lipoproteins by high copper concentrations: evidence for a noncon-stant rate of initiation. Chem Res Toxicol 10: 644-651. 5) Steinberg FM, Chait A.1998. Antioxidant vitamin sup-plementation and lipid peroxidation in smokers. Am J Clin Nutr 68: 319-327. 19) Havel RJ, Eder HA, Bragon JH. 1995. The distribution and chemical composition of ultracentrifugally sepa-rated lipoprotein in human serum. J Clin Invest 34: 1345-1353. 34) Romanchik JE, Harrison EH, Morel DW.1997. Addition of lutein, lycopene, or β-carotene to LDL or serum in vitro: Effects on carotenoid distribution, LDL composi-tion, and LDL oxidation. J Nutr Biochem 8: 681-688. 37) Goulinet S, Chapman MJ. 1997. Plasma LDL and HDL subspecies are heterogenous in particle content of toco-pherols and oxygenated and hydrocarbon carotenoids. Relevance to oxidative resistance and atherogenesis. Arterioscler Thromb Vase Biol 17: 786-796. 26) Princen HMG, Van Poppel G, Vogelezang C, Buytenhek R, Kok FJ. 1992. Supplementation with vitamin E but not β-carotene in vivo protects low density lipoprotein from lipid peroxidation in vitro effect of cigarette smok-ing. Arterioscler Thromb 12: 554-562. 39) Paetau I, Khachik F, Brown ED, Beecher GR, Kramer TR, Chittams J, Clevidence BA. 1998. Chronic ingestion of lycopene-rich tomato juice or lycopene supplements significantly increases plasma concentrations of ly-copene and related tomato carotenoids in humans. Am J Clin Nutr 68: 1187-1195. 29) Pannala AS, Rice-Evans C, Sampson J, Singh S. 1998. Interation of peroxynitrite with carotenoids and toco-pherols within low density lipoprotein. FEBS Lett 423: 297-301. 16) Comstock GW, Helzlsouer KJ, Bush TL. 1991. Prediagnostic serum levels of carotenoids and vitamin E as related to subsequent cancer in Washington County, Maryland. Am J CIin Nutr 53: 260s-264s. 14) Burney PGJ, Comstock GW, Morris JS. 1989. Serologic precursors of cancer: serum micronutrients and the subsequent risk of pancreatic cancer. Am J Clin Nutr 49: 895-900. |
| References_xml | – reference: 38) Stahl W, Sies H. 1996. Lycopene: A biologically impor-tant carotenoid for humans? Arch Biochem Biophys 336: 1-9 – reference: 12) Gerster H. 1997. The potential role of lycopene for human health. J Am College Nutr 16: 109-126. – reference: 16) Comstock GW, Helzlsouer KJ, Bush TL. 1991. Prediagnostic serum levels of carotenoids and vitamin E as related to subsequent cancer in Washington County, Maryland. Am J CIin Nutr 53: 260s-264s. – reference: 21) Wagner JR, Motchnik PA, Stocker R, Sies H, Ames BN. 1993. The oxidation of blood plasma and low density lipoprotein components by chemically generated singlet oxygen. J Biol Chem 268:18502-18506. – reference: 36) Rice-Evans CA, Sampson J, Bramley PM, Holloway DE. 1997. Why do we expect carotenoids to be antioxidants in vivo? Free Radic Res 26: 381-398. – reference: 27) Croft KD, Williams P, Dimmitt S, Abu-Amsha R, Beilin LJ.1995.Oxidation of low-density lipoproteins: effect of antioxidant content, fatty acid composition and intrin-sic phospholipase activity on susceptibility to metal ion-induced oxidation. Biochim Biophys Acta 1254: 250-256. – reference: 31) Abuja PM, Albertini R, Esterbauer H. 1997. Simulation of the induction of oxidation of low-density lipoproteins by high copper concentrations: evidence for a noncon-stant rate of initiation. Chem Res Toxicol 10: 644-651. – reference: 6) Kristenson M, Zieden B, Kucinskiene Z, Elinder LS, Bergdahl B, Elwing B, Abaravicius A, Razinkoviene L, Calkauskas H, Olsson AG. 1997. Antioxidant state and mortality from coronary heart disease in Lithuanian and Swedish men: concomitant cross sectional study of men aged 50. 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| SubjectTerms | Adult Antioxidants - metabolism Arteriosclerosis - prevention & control beta Carotene - blood beta Carotene - metabolism beta Carotene - therapeutic use Beverages Biological and medical sciences BLOOD PLASMA carotenoid CAROTENOIDS Carotenoids - analysis Carotenoids - blood Carotenoids - metabolism Carotenoids - therapeutic use Feeding. Feeding behavior Female Fundamental and applied biological sciences. Psychology Humans LDL LIPOPROTEINS Lipoproteins - chemistry Lipoproteins, LDL - metabolism LYCOPENE Lycopersicon esculentum - chemistry Oxidation-Reduction oxidative modification tomato juice TOMATOES VEGETABLE JUICES Vertebrates: anatomy and physiology, studies on body, several organs or systems |
| Title | Effects of tomato juice consumption on plasma and lipoprotein carotenoid concentrations and the susceptibility of low density lipoprotein to oxidative modification |
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