Impact of food additive titanium dioxide on the polyphenol content and antioxidant activity of the apple juice

Environmental and genetic factors have been demonstrated to contribute to the development of inflammatory bowel disease (IBD). Recent studies suggested that the food additive; titanium dioxide (TiO2) might play a causative role in the disease. Therefore, in the present study we aimed to explore the interaction between the food additive TiO2 and the well-characterized IBD risk gene protein tyrosine phosphatase non-receptor type 2 (Ptpn2) and their role in the development of intestinal inflammation. Dextran sodium sulphate (DSS)-induced acute colitis was performed in mice lacking the expression of Ptpn2 in myeloid cells (Ptpn2LysMCre) or their wild type littermates (Ptpn2fl/fl) and exposed to the microparticle TiO2. The impact of Ptpn2 on TiO2 signalling pathways and TiO2-induced IL-1β and IL-10 levels were studied using bone marrow-derived macrophages (BMDMs). Ptpn2LysMCre exposed to TiO2 exhibited more severe intestinal inflammation than their wild type counterparts. This effect was likely due to the impact of TiO2 on the differentiation of intestinal macrophages, suppressing the number of anti-inflammatory macrophages in Ptpn2 deficient mice. Moreover, we also found that TiO2 was able to induce the secretion of IL-1β via mitogen-activated proteins kinases (MAPKs) and to repress the expression of IL-10 in bone marrow-derived macrophages via MAPK-independent pathways. This is the first evidence of the cooperation between the genetic risk factor Ptpn2 and the environmental factor TiO2 in the regulation of intestinal inflammation. The results presented here suggest that the ingestion of certain industrial compounds should be taken into account, especially in individuals with increased genetic risk

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Antioxidant Activity in Rheum emodi Wall (Himalayan Rhubarb)

Molecules ◽

10.3390/molecules26092555 ◽

2021 ◽

Vol 26 (9) ◽

pp. 2555

Author(s):

Sang Koo Park ◽

Yoon Kyung Lee

Keyword(s):

Antioxidant Activity ◽

Ethyl Acetate ◽

Radical Scavenging Activity ◽

Radical Scavenging ◽

Ethyl Acetate Fraction ◽

Total Phenolic ◽

Scavenging Activity ◽

Polyphenol Content ◽

Abts Assay ◽

Ic50 Values

Using natural products as antioxidant agents has been beneficial to replace synthetic products. Efforts have been made to profile the antioxidant capacities of natural resources, such as medicinal plants. The polyphenol content of Himalayan rhubarb, Rheum emodi wall, was measured and the antioxidant activity was determined using DPPH and ABTS+ assay, and the oxidative stress was assessed using SOD enzymatic assay. Five different solvent fractions, n-hexane, n-butanol, ethyl acetate, dichloromethane, and water, were used for screening the antioxidant capacity in effort to determine the optimum extraction solvent. The total phenolic contents for R. emodi fractions ranged from 27.76 to 209.21 mg of gallic acid equivalents (GAE)/g of dry weight. DPPH and ABTS+ assay results are presented into IC50 values, ranged from 21.52 to 2448.79 μg/mL and 90.25 to 1718.05 μg/mL, respectively. The ethyl acetate fraction had the highest antioxidant activity among other fractions. Also, n-butanol and water fractions showed significantly lower IC50 values than the positive control in DPPH radical scavenging activity. The IC50 values of SOD assay of fractions ranged from 2.31 to 64.78 μg/mL. A similar result was observed with ethyl acetate fraction showing the highest SOD radical scavenging activity. The study suggests that the ethyl acetate fraction of R. emodi possess the strongest antioxidant activity, thus the most efficient in extracting antioxidant contents. Moreover, a highly significant correlation was shown between total polyphenol content and antioxidant activity screening assays. The compounds related to the antioxidant activity of R. emodi were identified to myricitrin, myricetin 3-galloyl rhamnoside, and myricetin, which have not been reported in studies about R. emodi before.

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Effect of TiO2 on Selected Pathogenic and Opportunistic Intestinal Bacteria

Biological Trace Element Research ◽

10.1007/s12011-021-02843-7 ◽

2021 ◽

Author(s):

Ewa Baranowska-Wójcik ◽

Dominik Szwajgier ◽

Klaudia Gustaw

Keyword(s):

Titanium Dioxide ◽

Bacterial Strain ◽

Intestinal Bacteria ◽

Food Additive ◽

Bacterial Strains ◽

Gastrointestinal Microbiota ◽

Food Grade ◽

The Eu

AbstractFood-grade titanium dioxide (TiO2) containing a nanoparticle fraction (TiO2 NPs-nanoparticles) is widely used as a food additive (E171 in the EU). In recent years, questions concerning its effect on the gastrointestinal microbiota have been raised. In the present study, we examined interactions between bacteria and TiO2. The study involved six pathogenic/opportunistic bacterial strains and four different-sized TiO2 types: three types of food-grade E171 compounds and TiO2 NPs (21 nm). Each bacterial strain was exposed to four concentrations of TiO2 (60, 150, 300, and 600 mg/L TiO2). The differences in the growth of the analyzed strains, caused by the type and concentration of TiO2, were observed. The growth of a majority of the strains was shown to be inhibited after exposure to 300 and 600 mg/L of the food-grade E171 and TiO2 NPs.

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The combined effect of food additive titanium dioxide and lipopolysaccharide on mouse intestinal barrier function after chronic exposure of titanium dioxide-contained feedstuffs

Particle and Fibre Toxicology ◽

10.1186/s12989-021-00399-x ◽

2021 ◽

Vol 18 (1) ◽

Author(s):

Yongliang Zhang ◽

Shumin Duan ◽

Ying Liu ◽

Yun Wang

Keyword(s):

Titanium Dioxide ◽

Intestinal Permeability ◽

Barrier Function ◽

Intestinal Barrier ◽

Antagonistic Effect ◽

Food Additive ◽

Combined Effect ◽

Intestinal Barrier Function ◽

Barrier Functions ◽

Intestinal Villi

Abstract Objective Up to 44% of particulates of food-grade titanium dioxide (TiO2) are in nanoscale, while the effect and combined effect of which with other substances on intestinal barrier haven’t been fully understood yet. This study is aimed to study the effect of two kinds of TiO2 nanoparticles (TiO2 NPs and TiO2 MPs) on intestinal barrier functions, to reveal the combined effect of TiO2 NPs and Lipopolysaccharide (LPS) on intestinal barrier. Methods Male ICR mice were randomly divided into 18 groups (3 feed types * 3 exposure length * 2 LPS dosage) and were fed with normal or TiO2-mixed feed (containing 1% (mass fraction, w/w) TiO2 NPs or TiO2 MPs) for 1, 3, 6 months, followed by a single oral administration of 0 or 10 mg/(kg body weight) LPS. Four hours later, the transportation of TiO2, the intestinal barrier functions and the inflammatory response were evaluated. Results Both TiO2 notably increased the intestinal villi height / crypt depth ratios after 1 and 3 months of exposure, and increased the expression of ileal tight junction proteins (ZO-1 and occludin) after 1 month of exposure. After 6 months of exposure, TiO2 NPs led to reduced feed consumption, TiO2 MPs caused spare microvilli in small intestine and elevated Ti content in the blood cells. The intestinal permeability didn’t change in both TiO2 exposed groups. After LPS administration, we observed altered intestinal villi height / crypt depth ratios, lowered intestinal permeability (DAO) and upregulated expression of ileal ZO-1 in both (TiO2 +LPS) exposed groups. There are no significant changes of ileal or serum cytokines except for a higher serum TNF-α level in LPS treated group. The antagonistic effect was found between TiO2 NPs and LPS, but there are complicated interactions between TiO2 MPs and LPS. Conclusion Long-term intake of food additive TiO2 could alter the intestinal epithelial structure without influencing intestinal barrier function. Co-exposure of TiO2 and LPS would enhance intestinal barrier function without causing notable inflammatory responses, and there is antagonistic effect between TiO2 NPs and LPS. All the minor effects observed might associate with the gentle exposure method where TiO2 being ingested with feed.

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Annona muricata leaves ethanolic extract in water, n-hexane, and methanol fractions: Cytotoxicity assay, antioxidant activity, flavonoid content, polyphenol content, and acetogenin content

10.1063/5.0047484 ◽

2021 ◽

Author(s):

Elsa Anisa Krisanti ◽

Afidya Indina Harumanti ◽

Kamarza Mulia

Keyword(s):

Antioxidant Activity ◽

Ethanolic Extract ◽

Cytotoxicity Assay ◽

Annona Muricata ◽

Flavonoid Content ◽

Polyphenol Content

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Polyphenol content and antioxidant activity of beverage from dragron fruit peel powder and soy powder

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/672/1/012055 ◽

2021 ◽

Vol 672 (1) ◽

pp. 012055

Author(s):

N M Rosiana ◽

A L Suryana ◽

Z Olivia

Keyword(s):

Antioxidant Activity ◽

Polyphenol Content ◽

Fruit Peel ◽

Soy Powder

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Studies on the Food Additive Propyl Gallate: Synthesis, Structural Characterization, and Evaluation of the Antioxidant Activity

Journal of Chemical Education ◽

10.1021/ed900025s ◽

2011 ◽

Vol 89 (1) ◽

pp. 130-133 ◽

Cited By ~ 14

Author(s):

Jorge Garrido ◽

E. Manuela Garrido ◽

Fernanda Borges

Keyword(s):

Antioxidant Activity ◽

Propyl Gallate ◽

Structural Characterization ◽

Food Additive

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Quality stability and sensory attributes of apple juice processed by thermosonication, pulsed electric field and thermal processing

Food Science and Technology International ◽

10.1177/1082013216685484 ◽

2016 ◽

Vol 23 (3) ◽

pp. 265-276 ◽

Cited By ~ 21

Author(s):

Alifdalino Sulaiman ◽

Mohammed Farid ◽

Filipa VM Silva

Keyword(s):

Antioxidant Activity ◽

Electric Field ◽

Sensory Analysis ◽

Thermal Processing ◽

Apple Juice ◽

Treatment Time ◽

Pulsed Electric Field ◽

Color Difference ◽

Soluble Solids ◽

Total Color Difference

Worldwide, apple juice is the second most popular juice, after orange juice. It is susceptible to enzymatic browning spoilage by polyphenoloxidase, an endogenous enzyme. In this study, Royal Gala apple juice was treated by thermosonication (TS: 1.3 W/mL, 58 ℃, 10 min), pulsed electric field (PEF: 24.8 kV/cm, 60 pulses, 169 µs treatment time, 53.8 ℃) and heat (75 ℃, 20 min) and stored at 3.0 ℃ and 20.0 ℃ for 30 days. A sensory analysis was carried out after processing. The polyphenoloxidase activity, antioxidant activity and total color difference of the apple juice were determined before and after processing and during storage. The sensory analysis revealed that thermosonication and pulsed electric field juices tasted differently from the thermally treated juice. Apart from the pulsed electric field apple juice stored at room temperature, the processed juice was stable during storage, since the pH and soluble solids remained constant and fermentation was not observed. Polyphenoloxidase did not reactivate during storage. Along storage, the juices’ antioxidant activity decreased and total color difference increased (up to 6.8). While the antioxidant activity increased from 86 to 103% with thermosonication and was retained after pulsed electric field, thermal processing reduced it to 67%. The processing increased the total color difference slightly. No differences in the total color difference of the juices processed by the three methods were registered after storage. Thermosonication and pulsed electric field could possibly be a better alternative to thermal preservation of apple juice, but refrigerated storage is recommended for pulsed electric field apple juice.

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