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    Brodkorb, Andre (13)
    Auty, Mark (4)Baugreet, Sephora (2)Bouhallab, Said (2)Croguennec, Thomas (2)Giblin, Linda (2)Gomez, Carolina (2)Gough, Ronan (2)Hamill, Ruth M (2)Hill, Colin (2)View MoreSubjectBioaccessibility (2)Cytotoxicity (2)In vitro digestion (2)Linoleate (2)Whey proteins (2)α-Lactalbumin (2): β-lactoglobulin (1)Aggregation (1)Akkermansia (1)Antimicrobial peptide (1)View MoreDate Issued2019 (2)2018 (3)2017 (2)2016 (1)2013 (3)2012 (1)2011 (1)

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    Complexes between linoleate and native or aggregated β-lactoglobulin: Interaction parameters and in vitro cytotoxic effect.

    Le Maux, Solene; Bouhallab, Said; Giblin, Linda; Brodkorb, Andre; Croguennec, Thomas (Elsevier, 2013-11)
    Iron is essential for human health, but it sometimes causes an unpleasant taste, rusty colour and a decrease in the stability of food products. Previously, we found that ethanol-treated yeast (ETY) cells could remove iron from wine and juice, and reduce the fishy aftertaste induced by iron in wine–seafood pairings. However, the mechanism of iron sorption by ETY cells is undefined; thus, there is no indicator that can be used to estimate the iron sorption capacity of these cells. In this study, we showed that cell wall components are not mainly associated with iron sorption by investigating ETY cells with the cell wall removed. Moreover, plasma membrane permeability was correlated with the iron sorbing capacity of the cells. Microscopic analysis showed that iron accumulated within ETY cells. Proteinase-treated ETY cells had no iron sorbing capacity. On the basis of these results, we conclude that intracellular proteins are involved in iron sorption by ETY cells.
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    Formation of non-native β-lactoglobulin during heat-induced denaturation

    Kehoe, Joseph James; Wang, Lizhe; Morris, Edwin R; Brodkorb, Andre (Springer, 01/12/2011)
    A mechanism describing the denaturation and aggregation behavior during heat-treatment of pure β-lactoglobulin and β-lactoglobulin in whey protein isolate (WPI) under selected conditions (20 to 90 gL−1 in water at pH 7.0, 78 °C) is presented. A combination of reversed-phase and gel permeation chromatography was used to study the disappearance of native β-lactoglobulin and the formation of non-native intermediates in the aggregation process. The mean reaction order for pure β-lactoglobulin and β-lactoglobulin in WPI were the same, 1.4. While the rate of β-lactoglobulin denaturation was greater in WPI there was less aggregation compared to that of pure β-lactoglobulin. More of the β-lactoglobulin in WPI remained in a non-native monomer intermediate state after 30 min of heating. After an initial lag period, during which non-native monomers appeared, aggregates formed and rapidly reached a plateau in terms of their size. These aggregates were visualized using atomic force microscopy. There was no significant effect of protein concentration on either aggregate size or the number of exposed sulfhydryls in the heated solutions.
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    Structure and antioxidant activity of Maillard reaction products from α-lactalbumin and β-lactoglobulin with ribose in an aqueous model system

    Jiang, Zhanmei; Brodkorb, Andre (Elsevier, 11/02/2012)
    Maillard reaction products (MRPs) were prepared from aqueous model mixtures containing 3% (w/w) ribose and 3% (w/w) of the dairy proteins α-lactalbumin (α-LA) or β-lactoglobulin (β-LG), heated at 95 °C, for up to 5 h. The pH of MRPs decreased significantly during heat treatment of α-LA-Ribose and β-LG-Ribose mixtures from 8.4 to 5.3. The amino group content in MRPs, derived from the α-LA-Ribose and β-LG-Ribose model system, was decreased noticeably during the first hour and did not change thereafter. The loss of free ribose in MRPs was higher for β-LG-Ribose than for α-LA-Ribose. During the Maillard reaction, the concentration of native and non-native α-LA, or β-LG, decreased and the formation of aggregates was observed. Fluorescence intensity of the β-LG-Ribose MRPs reached maximum within 1 h, compared to 2 h for α-LA-Ribose MRPs. Meanwhile, modification of the UV/vis absorption spectra for α-LA and β-LG was mainly due to a condensation reaction with ribose. Dynamic light scattering showed a significant increase in the particle size of the MRPs. Size exclusion chromatography of MRPs revealed the production of both high and low molecular weight material. Electrophoresis of MRPs indicated polymerization of α-LA and β-LG monomers via inter-molecular disulfide bridge, but also via other covelant bonds. MRPs from α-LA-Ribose and β-LG-Ribose exhibited increased antioxidant activities, therefore theses MRPs may be used as natural antioxidants in food products.
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    The Formation of an Anti-Cancer Complex Under Simulated Gastric Conditions

    Sullivan, Louise M.; Mok, K. Hun; Brodkorb, Andre (Springer-Verlag, 01/05/2013)
    A potent anti-cancer complex has previously been formed from two major components of milk. Human/bovine α-lactalbumin made lethal to tumour cells (H/BAMLET) is a protein–fatty acid complex that has been produced using the whey protein α-lactalbumin (α-LA) and the fatty acid oleic acid (OA). It was shown that it possesses selective anti-tumour and anti-microbial activity, which was first identified in acidic fractions of human breast milk. The aim of this study was to determine whether the two components would form a bioactive complex during simulated gastric (GI) transit. Results showed that a complex consisting of α-LA and OA is formed as the protein unfolds under acidic conditions and subsequently refolds upon pH increase. Analysis of this complex using Nuclear Magnetic Resonance and Fourier Transform Infra-Red (FTIR) spectroscopies estimated a stoichiometry of 4.1 and 4.4 oleic acids per mole of protein, respectively. FTIR and fluorescence spectroscopies showed that the structure was similar to that of BAMLET. Cytotoxicity testing against cancer cell line U937 cells showed that the complex had an LC50 value of 14.08 μM compared to 9.15 μM for BAMLET. These findings suggest that a BAMLET-like complex may be formed under the tested in vitro GI conditions.
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    Isolation and characterisation of κ-casein/whey protein particles from heated milk protein concentrate and role of κ-casein in whey protein aggregation

    Gaspard, Sophie J.; Auty, Mark; Kelly, Alan L.; O'Mahony, James A.; Brodkorb, Andre (Elsevier, 12/06/2017)
    Milk protein concentrate (79% protein) reconstituted at 13.5% (w/v) protein was heated (90 °C, 25 min, pH 7.2) with or without added calcium chloride. After fractionation of the casein and whey protein aggregates by fast protein liquid chromatography, the heat stability (90 °C, up to 1 h) of the fractions (0.25%, w/v, protein) was assessed. The heat-induced aggregates were composed of whey protein and casein, in whey protein:casein ratios ranging from 1:0.5 to 1:9. The heat stability was positively correlated with the casein concentration in the samples. The samples containing the highest proportion of caseins were the most heat-stable, and close to 100% (w/w) of the aggregates were recovered post-heat treatment in the supernatant of such samples (centrifugation for 30 min at 10,000 × g). κ-Casein appeared to act as a chaperone controlling the aggregation of whey proteins, and this effect was stronger in the presence of αS- and β-casein.
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    Covalent labelling of β-casein and its effect on the microstructure and physico-chemical properties of emulsions stabilized by β-casein and whey protein isolate

    Li, Meng; Auty, Mark; O'Mahony, James A.; Kelly, Alan L.; Brodkorb, Andre (Elsevier, 2016-12)
    The objective of this work was to investigate the effect of covalent labelling on the physico-chemical properties of β-casein (β-CN) in solution and in emulsions stabilized by β-CN and whey protein isolate (WPI). β-CN was covalently labelled by 5-(and 6)-carboxytetramethylrhodamine, succinimidyl ester (NHS-Rhodamine). The effect of conjugating β-CN with NHS-Rhodamine on the spectroscopic properties of labelled β-CN (β-CNlabelled) was examined. No significant difference in interfacial tension (p > 0.05) was found between mixture of WPI and β-CNlabelled (0.5% w/w WPI/β-CNlabelled) and of WPI and β-CN (0.5% w/w WPI/β-CN) in 10 mM phosphate buffer (pH 7.0) at 20 °C. Oil-in-water emulsions stabilized with either WPI/β-CN or WPI/β-CNlabelled (0.5% w/w) were also investigated using laser-light scattering, analytical centrifugation, rheometry and CLSM. It was shown that labelling had no significant effect on the physico-chemical properties of emulsions (p > 0.05) in terms of droplet size, creaming stability, viscosity or zeta-potential. Confocal micrographs of emulsions made with WPI/β-CNlabelled showed that both β-CN and whey proteins could be observed simultaneously, and were co-localized at the surface of fat globules. Furthermore, it was found through image analysis that β-CN produced a thicker interfacial layer than WPI.
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    β-Lactoglobulin-linoleate complexes: In vitro digestion and the role of protein in fatty acids uptake

    Le Maux, Solene; Brodkorb, Andre; Croguennec, Thomas; Hennessy, Alan A.; Bouhallab, Said; Giblin, Linda (Elsevier Inc and American Dairy Science Association, 2013-07)
    The dairy protein β-lactoglobulin (BLG) is known to bind fatty acids such as the salt of the essential longchain fatty acid linoleic acid (cis,cis-9,12-octadecadienoic acid, n-6, 18:2). The aim of the current study was to investigate how bovine BLG-linoleate complexes, of various stoichiometry, affect the enzymatic digestion of BLG and the intracellular transport of linoleate into enterocyte-like monolayers. Duodenal and gastric digestions of the complexes indicated that BLG was hydrolyzed more rapidly when complexed with linoleate. Digested as well as undigested BLG-linoleate complexes reduced intracellular linoleate transport as compared with free linoleate. To investigate whether enteroendocrine cells perceive linoleate differently when part of a complex, the ability of linoleate to increase production or secretion of the enteroendocrine satiety hormone, cholecystokinin, was measured. Cholecystokinin mRNA levels were different when linoleate was presented to the cells alone or as part of a protein complex. In conclusion, understanding interactions between linoleate and BLG could help to formulate foods with targeted fatty acid bioaccessibility and, therefore, aid in the development of food matrices with optimal bioactive efficacy
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    INFOGEST static in vitro simulation of gastrointestinal food digestion

    Brodkorb, Andre; Egger, Lotti; Alminger, Marie; Alvito, Paula; Assuncao, Ricardo; Balance, Simon; Bohn, Torsten; Bourlieu-Lacanal, Claire; Boutrou, Rachel; Carriere, Frederic; et al. (Nature Publishing Group, 2019-03-18)
    Developing a mechanistic understanding of the impact of food structure and composition on human health has increasingly involved simulating digestion in the upper gastrointestinal tract. These simulations have used a wide range of different conditions that often have very little physiological relevance, and this impedes the meaningful comparison of results. The standardized protocol presented here is based on an international consensus developed by the COST INFOGEST network. The method is designed to be used with standard laboratory equipment and requires limited experience to encourage a wide range of researchers to adopt it. It is a static digestion method that uses constant ratios of meal to digestive fluids and a constant pH for each step of digestion. This makes the method simple to use but not suitable for simulating digestion kinetics. Using this method, food samples are subjected to sequential oral, gastric and intestinal digestion while parameters such as electrolytes, enzymes, bile, dilution, pH and time of digestion are based on available physiological data. This amended and improved digestion method (INFOGEST 2.0) avoids challenges associated with the original method, such as the inclusion of the oral phase and the use of gastric lipase. The method can be used to assess the endpoints resulting from digestion of foods by analyzing the digestion products (e.g., peptides/amino acids, fatty acids, simple sugars) and evaluating the release of micronutrients from the food matrix. The whole protocol can be completed in ~7 d, including ~5 d required for the determination of enzyme activities.
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    In vitro digestion of protein-enriched restructured beef steaks with pea protein isolate, rice protein and lentil flour following sous vide processing

    Baugreet, Sephora; Gomez, Carolina; Auty, Mark; Kerry, Joseph P.; Hamill, Ruth M; Brodkorb, Andre (Elsevier, 2019-04-12)
    The effect of plant protein inclusion in cooked meat upon in vitro gastro-intestinal (GI) digestion was investigated. Pea protein isolate, rice protein and lentil flour were used to increase the protein content in a meat model system restructured using two transglutaminase enzymes [Activa®EB (TG) and Transgluseen™-M (TS)]. Restructured beef steaks were subjected to simulated GI digestion using the static INFOGEST method. Samples taken at different digestion times were analysed using SDS-PAGE, size exclusion-HPLC, free amino acid analysis and microscopy. SDS-PAGE analysis revealed significant protein hydrolysis during GI digestion. Most soluble peptides had a molecular weight smaller than 500 Da, corresponding to peptides of <5 amino acids, regardless of food treatment. The amounts of released, free amino acids isoleucine, lysine, phenylalanine and valine were higher (P < 0.05) in lentil-enriched restructured beef steaks following GI digestion. Confocal laser scanning microscopy (CSLM) revealed pronounced aggregation in digested samples. In vitro digestates of protein-enriched restructured beef steaks showed lower production of small molecular weight peptides. This study demonstrated how the bioaccessibility of protein-enriched restructured beef steaks are influenced by formulation and processing.
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    Simulated gastrointestinal digestion of nisin and interaction between nisin and bile

    Gough, Ronan; O'Connor, Paula M.; Rea, Mary C.; Gomez-Sala, Beatriz; Miao, Song; Hill, Colin; Brodkorb, Andre (Elsevier, 2017-08-14)
    Nisin, an antimicrobial peptide showing activity against many Gram positive bacteria, is widely used as a food preservative. The simulated gastrointestinal digestion of nisin (variant A) was studied using the in vitro INFOGEST digestion method. Following oral, gastric and small intestinal digestion, there was no intact nisin in the system and the nisin was primarily digested by pancreatin. After digestion, six nisin fragments (1–11, 1–12, 1–20, 1–21, 1–29 and 1–32) were identified by reversed phase high performance liquid chromatography and mass spectroscopy and four of these nisin fragments (1–20, 1–21, 1–29 and 1–32) demonstrated low antibacterial activity against Lactococcus lactis HP in agar diffusion activity assays. Additionally, it was observed that bile salts form a complex with nisin. This was examined by atomic force microscopy, turbidity and dynamic light scattering, which showed that this interaction resulted in significantly larger bile salt micelles. The presence of bile salts at physiological levels significantly altered the relative amounts of the nisin fragments 1–12, 1–20 and 1–29 produced during an in vitro digestion. This study highlights the importance of including bile in simulated digestions of antimicrobial peptides in order to obtain a more accurate simulation of the in vivo digestion products and their activity.
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