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Dietary Maillard reaction products and their fermented products reduce cardiovascular risk in an animal model

Authors
Oh, N. S.Park, M. R.Lee, K. W.Kim, S. H.Kim, Y.
Issue Date
8월-2015
Publisher
ELSEVIER SCIENCE INC
Keywords
prevention of cardiovascular disease; antioxidant activity; lactic acid bacteria; Maillard reaction; in vivo study
Citation
JOURNAL OF DAIRY SCIENCE, v.98, no.8, pp.5102 - 5112
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF DAIRY SCIENCE
Volume
98
Number
8
Start Page
5102
End Page
5112
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/92962
DOI
10.3168/jds.2015-9308
ISSN
0022-0302
Abstract
This study examined the effects of Maillard reaction products (MRP) and MRP fermented by lactic acid bacteria on antioxidants and their enhancement of cardiovascular health in ICR mouse and rat models. In previous in vitro studies, the selected lactic acid bacteria were shown to significantly affect the activity of MRP. The expression of genes (e.g., superoxide dismutase, catalase, and glutathione peroxidase) related to. antioxidant activity was upregulated by Maillard-reacted sodium caseinate (cMRP), and cMRP fermented by Lactobacillus fermentum 119 (F-cMRP) synergistically increased the expression of catalase and superoxide dismutase when compared with the high-cholesterol-diet group. Bleeding time, the assay for determination of antithrombotic activity, was significantly prolonged by Maillard-reacted whey protein concentration (wMRP) and wMRP fermented by Lactobacillus gasseri 1110 (F-wMRP), similar to the bleeding time of the aspirin group (positive control). In addition, the acute pulmonary thromboembolism induced mice overcame severe body paralysis or death in both the wMRP and the F-wMRP groups. In the serum-level experiment, cMRP and F-cMRP significantly reduced the serum total and low-density lipoprotein cholesterol levels and triglycerides but had only a slight effect on high-density lipoprotein cholesterol. The levels of aspartate transaminase and alanine transaminase also declined in the cMRP and F-cMRP intake groups compared with the high-cholesterol-diet group. In particular, F-cMRP showed the highest reducing effects on triglycerides, aspartate transaminase, and alanine transaminase. Moreover, the expression of cholesterol-related genes in the FcMRP group demonstrated greater effects than for the cMRP group in the level of cholesterol 7 alpha-hydroxylase (CYP7A1), 3-hydroxy-3-methylglutaryl-CoA reductase (HMGR), and low-density lipoprotein receptors compared with the high-cholesterol-diet group. The protective role of cMRP and F-cMRP in the high-cholesterol group may have been the result of an antioxidative defense mechanism that regulated cholesterol synthesis and metabolism. Therefore, F-cMRP and cMRP have the potential to play preventive and therapeutic roles in the management of cardiovascular disease.
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