Abstract
BackgroundEpidemiological studies have consistently shown that whole grain (WG) cereals can protect against the development of chronic diseases, but the underlying mechanism is not fully understood. Among WG products, WG rye is considered even more potent because of its unique discrepancy in postprandial insulin and glucose responses known as the rye factor. In this study, an NMR-based metabolomics approach was applied to study the metabolic effects of WG rye as a tool to determine the beneficial effects of WG rye on human health.MethodsThirty-three postmenopausal Finnish women with elevated serum total cholesterol (5.0-8.5 mmol/L) and BMI of 20–33 kg/m2 consumed a minimum of 20% of their daily energy intake as high fiber WG rye bread (RB) or refined wheat bread (WB) in a randomized, controlled, crossover design with two 8-wk intervention periods separated by an 8-wk washout period. At the end of each intervention period, fasting serum was collected for NMR-based metabolomics and the analysis of cholesterol fractions. Multilevel partial least squares discriminant analysis was used for paired comparisons of multivariate data.ResultsThe metabolomics analysis of serum showed lower leucine and isoleucine and higher betaine and N,N-dimethylglycine levels after RB than WB intake. To further investigate the metabolic effects of RB, the serum cholesterol fractions were measured. Total- and LDL-cholesterol levels were higher after RB intake than after WB (p<0.05).ConclusionsThis study revealed favorable shifts in branched amino acid and single carbon metabolism and an unfavorable shift in serum cholesterol levels after RB intake in postmenopausal women, which should be considered for evaluating health beneficial effects of rye products.
Highlights
Epidemiological studies have consistently shown that whole grain (WG) cereals can protect against the development of chronic diseases, but the underlying mechanism is not fully understood
There is growing evidence that WG cereals protect against the development of chronic diseases such as type 2 diabetes (T2D) [2,3], cardiovascular disease (CVD) [4,5,6], and certain cancers [7,8,9,10]
Total energy and fat intake did not differ between the bread periods, while protein, carbohydrate, and dietary fiber intake was higher after rye bread (RB) than after wheat bread (WB) (p
Summary
Epidemiological studies have consistently shown that whole grain (WG) cereals can protect against the development of chronic diseases, but the underlying mechanism is not fully understood. Postmenopausal women display decreased insulin sensitivity, insulin secretion, and hepatic insulin extraction [13] They potentially have more pronounced susceptibility to diabetes and CVD, which makes them an interesting target population in examining the physiological effects of potentially protective foods against CVD and T2D, such as WG rye. There is growing evidence that T2D and related conditions are characterized by a broad perturbation of metabolic physiology involving considerable changes in lipid and amino acid metabolism in addition to glucose [14]. This new evidence is prompting the application of methods monitoring a broad range of molecular species, i.e. metabolomics, to study the beneficial effects of potentially health-promoting foods
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