Ian B. O’Loughlin scite author profile

The effects of heat induced denaturation and subsequent aggregation of Whey Protein Isolate (WPI) solutions on the rate of enzymatic hydrolysis was investigated.Denaturation of whey proteins was monitored by reversed-phase and size exclusion HPLC and observed by native-and SDS-PAGE. Treated and un-treated WPI solutions (100 g L -1 protein) were hydrolysed to a target degree of hydrolysis (DH) of 5 % with Corolase ® PP. Aggregate formation was monitored using light microscopy, with size distribution determined by particle size. Viscosity and surface hydrophobicity exhibited large increases with heat-treatment and the major protein components in WPI showed differences in their rates of aggregation. Results revealed an increased rate of hydrolysis of protein solutions, which were subjected to a pre-hydrolysis heat-

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Molecular Characterization of Whey Protein Hydrolysate Fractions with Ferrous Chelating and Enhanced Iron Solubility Capabilities

O’Loughlin

Kelly

Murray

et al. 2015

J. Agric. Food Chem.

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The ferrous (Fe2+) chelating capabilities of WPI hydrolysate fractions produced via cascade membrane filtration were investigated, specifically 1 kDa permeate (P) and 30 kDa retentate (R) fractions. The 1 kDa-P possessed a Fe2+ chelating capability at 1 g L(-1) equivalent to 84.4 μM EDTA (for 30 kDa-R the value was 8.7 μM EDTA). Fourier transformed infrared (FTIR) spectroscopy was utilized to investigate the structural characteristics of hydrolysates and molecular interactions with Fe2+. Solid-phase extraction was employed to enrich for chelating activity; the most potent chelating fraction was enriched in histidine and lysine. The solubility of ferrous sulfate solutions (10 mM) over a range of pH values was significantly (P<0.05) improved in dispersions of hydrolysate fraction solutions (10 g protein L(-1)). Total iron solubility was improved by 72% in the presence of the 1 kDa-P fraction following simulated gastrointestinal digestion (SGID) compared to control FeSO4·7H2O solutions.

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Anti‐inflammatory effects of a casein hydrolysate and its peptide‐enriched fractions on TNFα‐challenged Caco‐2 cells and LPS‐challenged porcine colonic explants

Mukhopadhya

Noronha

Bahar

et al. 2014

Food Science & Nutrition

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Bioactive milk peptides are reported to illicit a range of physiological benefits and have been proposed as potential functional food ingredients. The objective of this study was to characterize the anti-inflammatory properties of sodium caseinate (NaCAS), its enzyme hydrolysate (EH) and peptide-enriched fractions (5 kDa retentate [R], 1 kDaR and 1 kDa permeate [P]), both in vitro using a Caco-2 cell line, and also ex vivo using a porcine colonic tissue explant system. Caco-2 cells were stimulated with tumour necrosis factor alpha (TNFα) and co-treated with casein hydrolysates for 24 h. Following this, interleukin (IL)-8 concentrations in the supernatant were measured using enzyme-linked immunosorbent assay. Porcine colonic tissue was stimulated with lipopolysaccharide and co-treated with casein hydrolysates for 3 h. The expression of a panel of inflammatory cytokines was measured using qPCR. While dexamethasone reduced the IL-8 concentration by 41.6%, the 1 kDaR and 1 kDaP fractions reduced IL-8 by 68.7% and 66.1%, respectively, relative to TNFα-stimulated Caco-2 cells (P < 0.05). In the ex vivo system, only the 1 kDaR fraction elicited a decrease inIL1-α,IL1-β,IL-8,TGF-β andIL-10 expression (P < 0.05). This study provides evidence that the bioactive peptides present in the 1 kDaR fraction of the NaCAS hydrolysate possess anti-inflammatory properties in vitro and ex vivo. Further in vivo analysis of the anti-inflammatory properties of the 1 kDaR is proposed.

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Ian B. O’Loughlin

Enzymatic Hydrolysis of Heat-Induced Aggregates of Whey Protein Isolate

Molecular Characterization of Whey Protein Hydrolysate Fractions with Ferrous Chelating and Enhanced Iron Solubility Capabilities

Anti‐inflammatory effects of a casein hydrolysate and its peptide‐enriched fractions on TNFα‐challenged Caco‐2 cells and LPS‐challenged porcine colonic explants

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