ORIGINAL ARTICLE PROPRIETARY TOMATO

ORIGINAL ARTICLE PROPRIETARY TOMATO ExTRACT IMPROVES METABOLIC RESPONSE TO HIGH-FAT MEAL IN HEALTHY NORMAL WEIGHT SUBJECTS Xavier Deplanque, Delphine Muscente Paque and Eric Chappuis Naturalpha SAS, Pare Eurasanté, Loos, France ABSTRACT Background: Low-density lipostudenthoano thprotein(LDL) oxidation is a risk factor for atherosclerosis, Lycopene and tomato-based products have been described as potent inhibitors of LDL oxidation. objectives. To evaluate the effect of a 2-week supplementation with a carotenoid rich tomato extract(CRTE) standardized for a 1:1 ratio of lycopene and plytosterols, on post-prandial LDL oxidation after a high-fat meal. Design: In a randomized, double-blind, parallel groups, placebo-controlled study, 146 healthy normal weight individuals were randomly assigned to a daily dose of cRTE standardized for tomato phytonutrients or placebo during 2 weeks. oxidized LDL(oxLDL), glucose, insulin, and triglyceride intervention Results Plasma lycopene, phytofluene, and phytoene were increased throughout the study period in the CRTE group compared to placebo. E ingestion significantly improved changes in oxLDL response to high-fat meal compared to placebo after 2 weeks(p 0001). Changes observed in glucose, insulin, and TG responses were not statistically significant after 2 weeks of supplementation, although together they may suggest a trend of favorable effect on metabolic outcomes after a high-fat meal

Conclusions: Two-week supplementation with cRTE increased carotenoids levels in plasma and improved oxidized LDL response to a high rat meal in healthy normal weight individuals. Keywords: cardiovascular, carotenoid-rich tomato extracts oxidative stress: tomato; oxidized LDL Citation: Food& Nutritio Research 2016. 60: 32537. http://dx.doi.org/10.3402ifn Copyright c 2016 Xavier Deplanque al. is an open Access article distributed under the terms of et This the creative Attribution 4 International License, allowing third parties to copy and Commons redistribute the material in any medium or format and to remix transform, and build upon the material for any purpose, even commercially, provided the original work is properly cited and states its license. Received: 8 June 2016; Revised: 30 August 2016: Accepted 30 August 2016. Published: 4 october 2016 competing interests and funding: xD, DMP, and Eo are employees of Naniralpha SAS, a privat company that provides research and development services and that was mandated and financed by Lycored to conduct the human clinical trial presented in the present publication, xD, DMP, and EC declare that they have no competing interests, CRTE tested in this study is commercialized by Lycored Comespondence to: Eric Chappuis, Naturalpha, Parc Eurasante, 59120 Loos, France, Email eric.chappuisl@yahoo.fr Aerobic metabolism generates reactive oxygen species(Ros) including superoxide anion, hydrogen peroxide, and hydroxyl radicals Biological and physiological processes are regulated by Ros that act as signaling molecules, allowing environmental adaptations of mammalian cells: however, Ros also interact with different biological targets and are commonly associated with oxidative stress linked to the development of certain pathologies where lipids, proteins, and DNA damage might be involved Ros have a causal role in atherosclerosis that consists of migration, accumulation, and proliferation of foam cells in intimal smooth muscle cell, leading to the development of fibrofatty plaque sclerosis a understanding of the underlying mechanisms involved in atherogenesis has cardiovascular events. An dramatically improved over recent years and has revealed that endothelial dysfunction, the first step in this

is a consequence of decreased nitrie oxide(NO) bioavailability and incteased generation of Ros in the vascular wall, circulating low density lipoproteins(LDIs) are entrapped in the mbendotbelial space of the vascular endothelium and"ubjected to ovidative modification to form oxidized LDL(oxt.DL) panieles that are intermalized by macrophages and accumulate in foam cells, leading to atherogenesis(24 Absorption of euogenous artioxidants such as ascorbate(vitamin C and a tocopherol(vitamin E) has been proposed as a strategy inhibit atherogenesis through restoration of NO to bioavailability and ability to limit LDL esidation, but promising results from sman trials have not been confirmed in large interventional trials(2) odher antioxidants such as lycopene, the strongest owygm quencher amongst carotenoids, have a protective role toward cardiovascular diseases(3) and demonstrate an in vitro ability to protect lipoproteins from oxidation, but in vivo evidence is still connicting(4, 5) Results or interventional trials suggest that lycopene alone is less effective dan whole comatoes or complex tomato extracts in improving cardiovascular risk factors linked to ovidative stress wch ai oxLDL