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The present study aimed to investigate the effect of digested total protein (DTP) from chia seed on the gut microbiota and morphology of mice fed with a high-fat diet. Forty-four male C57BL/6 mice were divided into 4 groups: AIN (standard diet), HF (high-fat diet), AIN + DTP (standard diet supplemented with 400 mg of digested chia seed protein), and HF + DTP (high-fat diet supplemented with 400 mg of digested chia seed protein) during 8 weeks. Colon morphology, tight junction's gene expression, and gut microbiota composition were evaluated. The consumption of digested chia seed protein (DTP) increased the crypts width, longitudinal and circular muscular layer. Furthermore, the AIN + DTP group enhanced the expression of tight junction proteins, including occludin and claudin, while the AIN + DTP and HF + DTP groups increase the zonula occludens expression. The α-diversity analysis showed a reduction in bacterial dominance in the HF + DTP group. All the experimental groups were grouped in different cluster, showing differences in the microbiota community in the ß-diversity analyzes. The Firmicutes/Bacteroidetes ratio did not differ among the groups. The genera Olsenella and Dubosiella were increased in the AIN + DTP group, but the Oscillospiraceae_unclassified was increased in the HF + DTP group. The Alistipes was increased, while the Roseburia and Akkermansia were decreased in the AIN + DTP and HF + DTP groups. Then, the consumption of DTP from chia seed improved the gut microbiota composition and mucosal integrity, counteracting the adverse effects of high-fat diet.

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Macauba (Acrocomia aculeata) is a palm tree native from Brazil, whose pulp is rich in oil that has a high content of oleic acid and carotenoids. Macauba pulp oil can bring health benefits due to its bioactive compounds; however, its effects on gut health are unknown. Thus, the objective of this study was to evaluate the effect of macauba pulp oil on the intestinal health in mice fed a high-fat (HF) diet. Male C57BL1/6 mice were randomly divided into three groups (10 animals/group): control diet, HF diet and HF diet with 4 % of macauba pulp oil (HFM). Concentration of short-chain fatty acids (SCFA), faecal pH and histomorphometric analysis of the colon were performed. Content of colon samples was used on microbiome analysis using 16S rRNA amplicon sequencing. Animals from the HFM group had higher butyric acid content and goblet cells number, greater circular and longitudinal muscle layer and higher α-diversity compared with the HF group. Moreover, consumption of MPO reduced Desulfobacterota phylum, Ruminococcaceae, Oscillospiraceae, Prevotellaceae, Bifidobacteriaceae family, Faecalibacterium, Prevotella, Ruminococcus and Enterorhabdus genus. Therefore, macauba pulp oil was able to modulate the gut microbiota and enhance intestinal barrier morphology, showing preventive effects on gut dysbiosis in mice fed a HF diet.

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Macauba is a palm tree native to Brazil, which fruits are rich in oil. Macauba pulp oil has high contents of oleic acid, carotenoids, and tocopherol, but its effect on health is unknown. We hypothesized that macauba pulp oil would prevent adipogenesis and inflammation in mice. Thus, the purpose of this study was to evaluate the effects of macauba pulp oil on the metabolic changes in C57Bl/6 mice fed a high-fat diet. Three experimental groups were used (n = 10): control diet (CD), high-fat diet (HFD), and high-fat diet with macauba pulp oil (HFM). The HFM reduced malondialdehyde and increased SOD activity and antioxidant capacity (TAC), showing high positive correlations between total tocopherol, oleic acid, and carotenoid intakes and SOD activity (r = 0.9642, r = 0.8770, and r = 0.8585, respectively). The animals fed the HFM had lower levels of PPAR-γ and NF-κB, which were negatively correlated with oleic acid intake (r = -0.7809 and r = -0.7831, respectively). Moreover, the consumption of macauba pulp oil reduced inflammatory infiltrate, adipocyte number and length, (mRNA) TNF-α, and (mRNA) SREBP-1c in the adipose tissue, and it increased (mRNA) Adiponectin. Therefore, macauba pulp oil prevents oxidative stress, inflammation, and adipogenesis and increases antioxidant capacity; these results highlight its potential against metabolic changes induced by an HFD.

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Correction for 'Macauba (Acrocomia aculeata) kernel has good protein quality and improves the lipid profile and short chain fatty acids content in Wistar rats' by Fátima Ladeira Mendes Duarte et al., Food Funct., 2022, 13, 11342-11352, https://doi.org/10.1039/D2FO02047E.

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High-fat diets are associated with intestinal dysbiosis and leaky gut leading to intestinal inflammation. Bioactive components, including phenolic compounds, isolated or in their original food matrix, have alleviated intestinal impairments promoted by a high-fat diet. Black corn (Zea mays L.) is a colored corn in which anthocyanins are the most abundant bioactive compound. Thus, we hypothesized that black corn flour may have preventive effects on poor intestinal health in mice fed a high-fat diet. To study this, 30 C57BL/6 mice were randomly divided into 3 experimental groups receiving the following diets for 8 weeks: normal control (fed a normal diet); high-fat (fed a high-fat diet: 60% of calories from fat); high-fat corn (fed a high-fat diet added with 20% of black corn whole flour). The cecal microbiota analyzed by 16S ribosomal RNA sequencing showed that black corn flour intake increased the relative abundance of Ruminococcus, Roseburia, and Prevotellaceae_UCG-001, and decreased Bacteroides and Faecalibaculum. No difference was observed in the cecal short-chain fatty acids and fecal pH among the experimental groups (P > .05). Further, the consumption of black corn flour improved cecal morphology by increasing the number of goblet cells but with no difference in the crypt depth and width. These findings suggest that black corn flour as a source of anthocyanins could have preventive effects on gut dysbiosis resulting from a high-fat diet. SCFA, short chain fatty acids.

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Macauba (Acrocomia aculeata) has aroused interest in the food industry due to the high nutritional value of its fruits. This study aimed to evaluate the protein quality and influence on biochemical markers, short chain fatty acids content, intestinal morphology, and intestinal functionality in Wistar rats of macauba kernel. Male young rats were divided into three groups (n = 8) that received a control diet (casein), and two test diets (M30: 30% semi-defatted macauba kernel flour or M50: 50% semi-defatted macauba kernel flour) for 29 days. Protein Efficiency Ratio (PER), Net Protein Ratio (NPR), True Digestibility (TD), biochemical, and intestinal morphology and functionality markers were evaluated. The PER and NPR values were lower in test groups compared to the control group. TD did not differ between M30 and M50. The animals that were fed the macauba kernel flour had lower concentrations of total cholesterol and triglycerides compared to the control group. The concentration of acetic and propionic acids was higher and the fecal pH was lower in M30 and M50 groups compared to the control group. Gene expression of aminopeptidase (AP) and sodium-glucose transport protein 1 (SGLT1) did not differ among the groups, and the M50 group had lower expression of peptide transporter 1 (PepT1) and sucrase isomaltase (SI) than the control group. Crypts thickness was higher in the M50 group compared to the other groups, while the intestinal muscle layer width did not differ among groups. Therefore, macauba kernel flour proved to be a good plant protein alternative, and its consumption reduced blood lipids and increased short chain fatty acids content.

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Black corn (Zea mays L.) is a source of anthocyanins, which have shown the ability to reduce metabolic disorders. This study investigated the anti-inflammatory, antioxidant, and anti-adipogenic preventive effects of black corn. C57BL/6 mice were divided into 3 groups (n = 10): normal control (NC): AIN-93 M; high-fat diet (HF); HF + corn (20%) (HFC). Black corn improved the antioxidant status, through the superoxide dismutase hepatic levels and serum total antioxidant capacity. Animals fed an HFC diet showed decreased gene expression of sterol regulatory element-binding protein-1c (SREBP-1c) and peroxisome proliferator-activated receptor-γ (PPARγ) and increased gene expression of adiponectin and lipoprotein lipase in the adipose tissue, which led to a less inflammatory infiltrate and decreased the adipocyte number and length. In the liver, black corn reduced the gene expression of SREBP-1c and acetyl CoA carboxilase 1. Therefore, black corn whole flour improved the antioxidant capacity, contributed to hepatic ß-oxidation, and decreased adipogenesis in animals.

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The effect of brown and golden flaxseeds on lipid profile, oxidative stress, intestinal permeability, endotoxemia, and fasting glycaemia of perimenopausal overweight women was investigated in this clinical trial. Thirty participants were divided into control (CG), brown flaxseed (BF), and golden flaxseed (GF) groups. BF and GF received 40 g of brown and golden flaxseed for 12 weeks. Venous blood samples were collected at the beginning and at the end. Intestinal permeability analysis was performed by urinary excretion of lactulose and mannitol. There was significant reduction in intestinal permeability in flaxseed groups, with delta of lactulose/mannitol ratio smaller (p ≤ 0.05). LPS levels were reduced in the flaxseed groups, whereas low-density lipoproteins (LDL) was decreased in the GF group (p ≤ 0.05). Flaxseed consumption did not change oxidative stress markers and glycaemia. Flaxseed consumption, especially golden flaxseed, reduced intestinal permeability and improved the lipid profile, showing positive effects on metabolic changes caused by menopausal transition.HIGHLIGHTSBrown and golden flaxseeds show a high content of insoluble fibre and alpha-linolenic acid, and brown flaxseed presented higher antioxidant activity.Golden flaxseed improved the lipid profile.Brown and golden flaxseeds reduced intestinal permeability and endotoxemia.Brown and golden flaxseed can be a promising alternative for the prevention of metabolic changes caused by menopausal transition, and for the improvement of the intestinal health.

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BACKGROUND: Cowpea (Vigna unguiculata L. Walph) is predominantly consumed in the North and Northeast regions of Brazil, and its biofortification with iron seeks to reduce the high prevalence of iron deficiency anemia in these regions. It is commonly eaten cooked; however, in the germinated form, it can improve nutritional quality by reducing the antinutritional factors and consequently improving the bioavailability of elements. The present study aimed to determine the physico-chemical characteristics, bioaccessibility and bioavailability of iron in biofortified germinated cowpea. RESULTS: There was no statistical difference between the germinated and cooked beans with regard to centesimal composition. Germinated beans had phytates and tannins similar to cooked beans. The phytate-iron molar ratio for all groups did not present a statistical difference (cooking 3.58 and 3.41; germinated 3.94 and 3.51), nor did the parameters evaluating in vivo iron bioavailability. Total phenolics was higher in the germinated group (cooking 0.56 and 0.64; Germinated 2.05 and 2.45 mg gallic acid kg-1 ). In vitro bioaccessibility of iron of germinated beans presented higher values (P ≤ 0.05) compared to cooked beans. There was higher expression of divalent metal transporter-1 in biofortified and germinated beans. CONCLUSION: The iron bioavailability from the biofortified and germinated beans was comparable to ferrous sulfate. Germination can be considered as an alternative and efficient method for consuming cowpea, presenting good iron bioaccessibility and bioavailability. © 2019 Society of Chemical Industry.

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