Functional and physiological properties of total, soluble, and insoluble dietary fibres derived from defatted rice bran

A comparative study to elucidate the biological activities of crude extracts from rice bran and wheat bran in cell line models

The present study investigated the nutritional composition of bran from rice (RB) and wheat (WB) and compared the natural virtues of crude extracts based on phenolic composition, antidiabetic and anticancer activities. The profiling of phenolic-rich ethyl acetate extracts (RBE and WBE) confirms that RBE is rich in catechol (0.122 mg/g dw), p-coumaric acid (0.159 mg/g dw), kaempferol (0.374 mg/g dw) and apigenin (0.399 mg/g dw); and WBE is affluent with catechol (0.144 mg/g dw), ferulic acid (0.160 mg/g dw), caffeic acid (0.083 mg/g dw) and ellagic acid (0.074 mg/g dw). RBE exhibited better antioxidant activity, inhibited the activity of α-amylase (IC50-353.41 µg/mL) and α-glucosidase (IC50-314.22 µg/mL), hindered glycation process (IC50-451.11 µg/mL), and enhanced glucose uptake in L6 muscle cells (20.4%) indicating its potential in diabetic management. RBE was toxic to HT29 colon cancer cells and decreased cell membrane integrity. RBE and WBE arrested cell-cycle transition in HT29 cells from G0 to G1 and G2 to M phase respectively and induced apoptosis (27.15% and 5.9%, respectively for RBE and WBE) suggesting anticancer activities of the extract. The study indicates that bran from rice and wheat are a potential source of dietary fibre and phytochemicals with antidiabetic and anticancer properties for developing value-added products with nutraceutical benefits.

Study on the functional properties and structural characteristics of soybean soluble polysaccharides by mixed bacteria fermentation and microwave treatment

The soybean soluble polysaccharide was prepared by mixed fermentation of lactic acid bacteria and Neurospora crassa and microwave treatment. The functional properties and structure characteristics of soybean soluble polysaccharide before and after modification were compared. Results revealed that after fermentation treatment, the content of soybean soluble polysaccharide increased to 7.09%, which was 3.16 times that of raw materials, and the microwave treatment was further increased to 7.69%. The glucose adsorption capacity, glucose dialysis retardation index and the α-amylase activity inhibition ration of soybean soluble polysaccharides increased significantly, promotes intestinal flora growth in vitro after fermentation of mixed bacteria and microwave treatment. At the same time, the analysis of monosaccharide composition and structural characteristics showed that the monosaccharide components of soybean soluble polysaccharide were redistributed after modification treatment, Scanning electron microscopy showed that modified soybean soluble polysaccharide has a larger surface area; Fourier Transform Infrared spectroscopy and X-ray Diffraction proved that the modification has slight changes in the functional groups and crystal structure of soybean soluble polysaccharide. These results suggested that okara may be a potentially inexpensive source of natural soybean soluble polysaccharide and a potential functional food ingredient.

Optimization of ultrasonic-assisted extraction of polysaccharides from purple glutinous rice bran (Oryza sativa L.) and their antioxidant activities

Purple glutinous rice bran (Kum Doi Saket rice (KUM)) contains high content of edible polysaccharides and anthocyanins and has an excellent antioxidant activity. This research aimed to optimize the extraction of crude polysaccharides from defatted purple glutinous rice bran using an ultrasonic-assisted extraction (UAE) and compared with a hot water extraction (HWE). Results showed that optimal extraction condition was as follows: a defatted rice bran to water ratio of 1:20 w/v, extraction temperature and time of 70 °C for 20 min. Under the optimal extraction condition, the yield of polysaccharide of UAE (4%) was significantly higher than that obtained from the HWE (0.8%). Additionally, antioxidant activities of extracted polysaccharide including IC₅₀ value DPPH, IC₅₀ value ABTS, and FRAP value were 1.09 mg/mL, 2.80 mg/mL and 197 µM Fe²⁺/g, respectively. It is suggested that the UAE process is promising method to decrease the processing time and to enhance extracted polysaccharide yields by 4 times.

Structure characterization of high molecular weight soluble dietary fiber from mushroom Lentinula edodes (Berk.) Pegler and its interaction mechanism with pancreatic lipase and bile salts

Aimed to evaluate the hypolipidemic effects of high molecular weight soluble dietary fiber extracted from L. edodes (LEHSDF), this study investigated the structure and interaction mechanism of LEHSDF with pancreatic lipase (PL) and bile salts (BS) that were involved in lipid digestion. 1D/2D NMR spectra indicated that the main chain of LEHSDF consisted of (1 → 2,4)-linked β-D-arabinopyranosyl, (1 → 3)-linked α-L-rhamnopyranosyl, (1 → 4)-linked β-D-xylopyranosyl, (1 → 6)-linked and (1 → 4)-linked β-D-glucopyranosyl, with β-D-galactopyranosyl and α-D-mannopyranosyl as terminal unit. Oil red O staining results suggested that LEHSDF had an effective inhibitory effect on lipid accumulation in HepG2 cells. Isothermal titration calorimetry, fluorescence and circular dichroism spectra showed that BS did not specifically bind to LEHSDF, and the strong inhibitory effect of LEHSDF on lipase was dominated by hydrophobic forces, electrostatic forces, encapsulation and adsorption interactions. The results will be helpful for the design of food containing LEHSDF as a functional additive to control lipid digestion.

Valorising Agro-industrial Wastes within the Circular Bioeconomy Concept: the Case of Defatted Rice Bran with Emphasis on Bioconversion Strategies

The numerous environmental problems caused by the extensive use of fossil resources have led to the formation of the circular bioeconomy concept. Renewable resources will constitute the cornerstone of this new, sustainable model, with biomass presenting a huge potential for the production of fuels and chemicals. In this context, waste and by-product streams from the food industry will be treated not as “wastes” but as resources. Rice production generates various by-product streams which currently are highly unexploited, leading to environmental problems especially in the countries that are the main producers. The main by-product streams include the straw, the husks, and the rice bran. Among these streams, rice bran finds applications in the food industry and cosmetics, mainly due to its high oil content. The high demand for rice bran oil generates huge amounts of defatted rice bran (DRB), the main by-product of the oil extraction process. The sustainable utilisation of this by-product has been a topic of research, either as a food additive or via its bioconversion into value-added products and chemicals. This review describes all the processes involved in the efficient bioconversion of DRB into biotechnological products. The detailed description of the production process, yields and productivities, as well as strains used for the production of bioethanol, lactic acid and biobutanol, among others, are discussed.

Review on Bile Acids: Effects of the Gut Microbiome, Interactions with Dietary Fiber, and Alterations in the Bioaccessibility of Bioactive Compounds

Bile acids are cholesterol-derived steroid molecules that serve various metabolic functions, particularly in the digestion of lipids. Gut microbes produce unconjugated and secondary bile acids through deconjugation and dehydroxylation reactions, respectively. Alterations in the gut microbiota have profound effects on bile acid metabolism, which can result in the development of gastrointestinal and metabolic diseases. Emerging research shows that diets rich in dietary fiber have substantial effects on the microbiota and human health. Plant-based foods are primary sources of bioactive compounds and dietary fiber, which are metabolized by microbes to produce different metabolites. However, the bioaccessibility of these compounds are not well-defined. In this review, we discuss the interaction of bile acids with dietary fiber, the gut microbiota, and their role in the bioaccessibility of bioactive compounds. To understand the possible mechanism by which bile acids bind fiber, molecular docking was performed between different dietary fiber and bile salts.

Coffee parchment as a new dietary fiber ingredient: Functional and physiological characterization

Coffee parchment was evaluated as a potential dietary fiber ingredient. For this purpose, dietary fiber was extracted by enzymatic and non-enzymatic methods and its physicochemical and in vitro hypoglycemic and hypolipidemic properties were investigated. Results revealed that coffee parchment (flakes and flour) was a good source of insoluble dietary fiber (IDF), mainly composed by xylans (35%), lignin (32%), and cellulose (12%). From results, the IDF extraction seemed not to be required the use of enzymes. Coffee parchment did not stand out by its content of phenolic compounds and antioxidant capacity, but milling process improved them. Due to its physical structure, coffee parchment flakes exhibited high oil holding capacity (3.8 mg L^-1), gelation capacity (8%) besides hydration properties, including water holding (3.4 mg L^-1), absorption (3.0 mg L^-1) and swelling (14 mg L^-1) capacities. Its flour and water-insoluble residue showed lower capacities. Nevertheless, these coffee parchment samples presented effective in vitro hypoglycemic properties, showing high glucose adsorption capacity (50-200 mmol L^-1), and capacity to decrease its diffusion (13%), and to inhibit α-amylase (52%) that led to lower starch digestibility (until 46%); and also, outstanding in vitro hypolipidemic properties, as inhibition of pancreatic lipase (43%) and binding of cholesterol and sodium cholate (16.6 and 35.3 mg g^-1, respectively). These results provide valuable information for the potential use of coffee parchment as new food DF ingredient.

Dynamic High-Pressure Microfluidization Treatment of Rice Bran: Effect on Pb(II) Ions Adsorption In Vitro

Insoluble dietary fiber from rice bran (RBIDF) was treated with dynamic high-pressure microfluidization (DHPM). The influence of pressure on the adsorption of Pb(II) capacity of RBIDF was explored in a simulation of the gastrointestinal environment. RBIDF (pH 7.0) displayed the maximal binding capacity (420.74 ± 13.12 μmol/g), at the level of 150 MPa, which was as 1.36 times as the untreated sample. DHPM-treated RBIDF demonstrated a higher ability to adsorb cholesterol and sodium cholate. Meanwhile, the treatment changed the morphology but did not alter the primary structure. The adsorption capacity is linear to the physicochemical properties of the total negative charges. The adsorption kinetics fit the pseudo-second-order model, Pb(II) adsorption mainly occur on the surface of the fiber particulate, this process includes natural physical adsorption and chemical reaction. This study provides a feasible approach for improving the adsorption capacity of RBIDF, especially the adsorption of Pb(II).

PRACTICAL APPLICATION

Dynamic high-pressure microfluidization can modify biomass adsorption materials effectively as a physically modification. The pretreatment dietary fiber can be used as a low-cost absorbing heavy metal biosorbent, and can be develop the functional food ingredients in the food industry.

Effect of extraction methods on structural, physiochemical and functional properties of dietary fiber from defatted walnut flour

The effect of different extraction methods i.e. extraction with alkali (AEDF), enzyme (EEDF) and enzyme plus shear emulsifying hydrolysis (SEDF) on structure, physiochemical as well as the functional characteristics of dietary fiber (DF) from defatted walnut flour were studied. AEDF process showed significantly higher (P < 0.05) amount of water retention capacity (WRC; 5.39 g/g), water swelling capacity (WSC; 3.16 g/mL), and particle size; while, shown lower value of oil adsorption capacity (OAC; 29 g/g) amongst all. Compared to AEDF, no major differences were observed in network except the matrix in EEDF and SEDF was more porous and honey comb like. DF extracted through AEDF, EEDF and SEDF showed good viscosity and emulsifying activity however, less stability indices. The results from this study suggest that AEDF and EEDF and SEDF had specific effects on the structure-functional properties of DF from defatted walnut flour, which has great potential in food applications.

Data on the effects of cellulase hydrolysis, acid treatment and particle size distribution on physicochemical and functional properties of coconut (cocos nucifera L) cake dietary fibres

The data presented in this article are related to the research article entitled “Physicochemical and functional properties of coconut (Cocos nucifera L) cake dietary fibres: Effects of cellulase hydrolysis, acid treatment and particle size distribution” [1]. This article describes the effect of acidic treatment, cellulase hydrolysis and particle size distribution on the monosaccharide composition, X-ray diffraction, Fourier-transformed infrared and spectroscopy surface area of coconut cake dietary fiber. The field data set is made publicly available to the potential re-use of coconut cake or other plants by-products.

Switching from a high-fat cellulose diet to a high-fat pectin diet reverses certain obesity-related morbidities

Background

Reducing caloric intake is a proven intervention for mitigating and modulating morbidities associated with overnutrition. Caloric restriction is difficult to affect clinically, therefore, dietary interventions that ameliorate the adverse consequences of overnutrition in the presence of a high-calorie diet would be of value.

Methods

Mice were fed an obesogenic diet containing 60% fat + 10% cellulose (HFC), or a control diet containing 10% fat + 10% cellulose (LFC) for 12 wks. Subgroups of mice were then switched from HFC to each of the following diets for an additional 5 wks: 1) 60% fat + 10% pectin (HFP), 2) LFC or 3) 10% fat + 10% pectin (LFP). To test for statistical differences, one-way or two-way ANOVAs were used with or without repeated measurements as needed.

Results

In comparison to HFC, HFP prevented additional weight gain while LFC and LFP triggered weight loss of 22.2 and 25.4%, respectively. Mice continued on HFC experienced a weight increase of 26% during the same 5 wk. interval. After 12 wks, HFC decreased mouse locomotion by 18% when compared to control diet, but a diet switch to LFC or LFP restored mouse movement. Importantly, HFP, LFC, and LFP reduced fasting blood glucose when compared to HFC. Likewise, HFP, LFC and LFP improved glucose tolerance and decreased fatty liver by 37.9, 49.8, 53.6 and 20.2%, 37.2, 43.7%, respectively.

Conclusions

Taken together, the results indicate that the dietary fiber pectin can mitigate some adverse consequences of overnutrition even in the presence of high-fat.

The adsorption of lead(II) ions by dynamic high pressure micro-fluidization treated insoluble soybean dietary fiber

Insoluble dietary fiber from soybean residue (SIDF) was treated with dynamic high-pressure microfluidization (DHPM) and used as adsorbent for Pb(II) ion. The effects of pressure on the Pb(II) adsorption capacity, primary cilia structure and surface topography of SIDF were determined using a gastrointestinal simulated model in vitro. SIDF (at pH 7.0) showed maximum binding capacity (261.42 ± 2.77 μmol/g), which was about 1.13 times higher than that of untreated sample (233.47 ± 1.84 μmol/g), when pressure reached 80 MPa. However, the net adsorption value of SIDF in a simulated small intestine (~ 9 μmol/g) was significantly lower than that in the stomach (~ 48 μmol/g), because of the competitive adsorption of Pb(2+) by pancreatin, cholate and several enzymes in the small intestine. In addition, the adsorption capacity of SIDF exhibited good linear relationship with the physicochemical properties of total negative charges, and the adsorption behavior presumably occurred on the surface area of granules fiber.