Phytochemical Fingerprint of Chia Sprouts Grown Under Chemical Elicitation with Salicylic Acid and Hydrogen Peroxide.

Chia seeds (CS) and sprouts are rich sources of phenolic compounds and polyunsaturated fatty acids (PUFA). We hypothesized that the application of chemical stressors, such as salicylic acid (SA) and hydrogen peroxide (H2O2), would induce changes in the polyphenol and fatty acid profile of chia sprouts, leading to an increase in their nutraceutical potential. This study aimed to assess the effect of non-elicited (NE) and chemically elicited (CE with 1-mM SA and 20-mM H2O2) sprouting on the polyphenol and fatty acid (FA) profiles of chia through high-resolution liquid chromatography-mass spectrometry and chemometric analyses. NE and CE chia sprouts showed increased content and diversity of polyphenols compared to the CS but with lower content of FA. Interestingly, rosmarinic acid was the major polyphenol identified in CS and was increased about 4-fold in all chia sprouts, whereas the major PUFA of CS, α-linolenic acid, was reduced by 39%. Regarding the chemical elicitation, the multivariate analyses indicated that SA-elicited chia sprouts were characterized by their high content of most polyphenols, mainly flavones and isoflavones, as well as a high antioxidant capacity, whereas H2O2-elicited chia sprouts were differentiated by protects their PUFA composition and seedling growth parameters. These results demonstrate that the chemical elicitation with SA and H2O2 represents a promising approach for improving sprouts' nutraceutical quality and could be used in further research to develop strategies for agriculture and food production.

Chia seeds and chemical-elicited sprouts supplementation ameliorates insulin resistance, dyslipidemia, and hepatic steatosis in obese rats.

Chia seeds (CS) and sprouts are rich in bioactive compounds. This study aimed to assess the effects of germination and chemical elicitation (salicylic acid [SA]; hydrogen peroxide [H2 O2 ]) on proximate chemical, total phenolics compounds (TPC), non-extractable proanthocyanidins (NEPA), and carotenoids content of chia sprouts; besides, the effects of their supplementation on obesity-associated complications in rats fed with high-fat and fructose diet (HFFD) were evaluated. Protein, carbohydrate, TPC, NEPA, and carotenoids content were higher in sprouts than CS; elicitation enhanced TPC and carotenoids compared to non-elicited (NE) sprouts. CS, NE, and elicited chia sprouts ameliorated insulin resistance and dyslipidemia at the same level in HFFD-fed rats. NE and SA-chia sprouts exerted the biggest reduction in hepatic triglycerides, which could be partially related to inhibition of pancreatic lipase activity. In addition, SA elicitation induced the greatest effect on insulin levels and corporal weight. CS and their sprouts decreased obesity and its complication, mainly SA-elicited sprouts. PRACTICAL APPLICATIONS: The growing epidemic of non-communicable diseases such as diabetes and obesity has led to the search for prevention and treatment through lifestyle changes, including the consumption of foods rich in bioactive compounds, such as seeds and their sprouts. Since sprouts contain higher concentrations of bioactive compounds and nutrients than seed, germination is a natural alternative to produce ready-to-eat functional foods. Chemical elicitation is a strategy to increase even more the bioactivity of sprouts. CS has been recognized for its beneficial health effects ameliorating dyslipidemia and insulin resistance. This study demonstrates that elicitation, with SA and H2 O2 , during germination of CS, increases the nutrient and phytochemical content of sprouts, with beneficial effects on body weight gain, insulin resistance, dyslipidemia, and prevention of NAFLD progression in diet-induced obese rats. Therefore, chia sprouts, natural and elicited, may be used as potential nutraceutical foods for the prevention and treatment of obesity and its complications.

Chia Sprouts Elicitation with Salicylic Acid and Hydrogen Peroxide to Improve their Phenolic Content, Antioxidant Capacities In Vitro and the Antioxidant Status in Obese Rats.

Elicitation is a biotechnological approach to improve phenolic compounds content and antioxidant properties of ready-to-eat functional foods. This study aimed to evaluate the chemical elicitation effects using salicylic acid (SA) and hydrogen peroxide (H2O2) in optimized-germination conditions on seedling vigor, phenolic content, and their antioxidant capacities in vitro and serum and urine of Wistar obese rats. Optimized-germination conditions of 26.5 °C and 178 h produced a 64% of germination and a sprout length of 56 mm. Only, the elicitation with H2O2 (20 mM) enhanced the germination (75%) and H2O2 (10 and 20 mM) the sprout length (69 and 59 mm, respectively). In contrast, both elicitors enhanced phenolic contents, being more significant total phenolic compounds content for SA (1 and 2 mM), up to 65.5-73.5%. SA and H2O2 improved total flavonoids content (36.5-64.1%), ABTS (19.3-61.1%), and DPPH capacities (51-86%), depending on SA and H2O2 concentration, compared with non-elicited chia sprouts. The QUENCHER antioxidant capacities of elicited chia sprouts increased up to three times more than extracts capacities, principally Q-ABTS, which could be attributed to phenolic bounds to dietary fiber. Rats fed with a high-fat and fructose diet (HFFD) and supplemented with chia sprouts, especially 1-mM SA, improve the obesity-related oxidative stress through an increase of antioxidant capacities, using DPPH and ABTS test, on serum (70-118%) and urine samples (80-116%). These results suggest that chia sprouts elicited with 1-mM SA are a source of antioxidant compounds that can be used to decrease obesity related oxidative stress.