Hydrolysis under High Hydrostatic Pressure as a Means To Reduce the Binding of β-Lactoglobulin to Immunoglobulin E from Human Sera

Hydrolysis under High Hydrostatic Pressure as a Means To Reduce the Binding of β-Lactoglobulin to Immunoglobulin E from Human Sera

Cows' milk allergy is the most frequent food allergy in children, and β-lactoglobulin (β-Lg) is a major allergen. Milk-based hypoallergenic ingredients are manufactured by enzymatic hydrolysis, a process that could be improved by the application of high-pressure treatments. This study showed th...

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Veröffentlicht in:Journal of food protection 2008-07, Vol.71 (7), p.1453-1459
Hauptverfasser: Chicon, R, Belloque, J, Alonso, E, Martin-Alvarez, P.J, Lopez-Fandino, R
Format: Artikel
Sprache:eng
Schlagworte:
allergens
Animals
binding capacity
Biological and medical sciences
blood serum
Chromatography, High Pressure Liquid
chymotrypsin
Chymotrypsin - metabolism
enzymatic hydrolysis
Epitopes
food allergies
Food industries
Food microbiology
food processing
food processing quality
Fundamental and applied biological sciences. Psychology
high pressure treatment
humans
Hydrolysis
Hydrostatic Pressure
immunoglobulin E
Immunoglobulin E - immunology
Immunoglobulin E - metabolism
immunoglobulin G
lactoglobulins
Lactoglobulins - immunology
Lactoglobulins - metabolism
milk
Milk - enzymology
Milk - metabolism
Milk and cheese industries. Ice creams
Milk Hypersensitivity - immunology
Milk Hypersensitivity - prevention & control
pepsin
Peptide Fragments
protein hydrolysates
proteolysis
Time Factors
trypsin
Trypsin - metabolism
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container_end_page 1459
container_issue 7
container_start_page 1453
container_title Journal of food protection
container_volume 71
creator Chicon, R
Belloque, J
Alonso, E
Martin-Alvarez, P.J
Lopez-Fandino, R
description Cows' milk allergy is the most frequent food allergy in children, and β-lactoglobulin (β-Lg) is a major allergen. Milk-based hypoallergenic ingredients are manufactured by enzymatic hydrolysis, a process that could be improved by the application of high-pressure treatments. This study showed that the treatment of β-Lg dissolved in buffer with chymotrypsin and trypsin under high pressure for relatively short times accelerated proteolysis by leading to a rapid removal of the intact protein. The rapid proteolysis of the β-Lg substrate under pressure led to the production, in 20 min, of hydrolysates with lower immunoglobulin (Ig) G binding than those produced in 8 h (chymotrypsin) or 48 h (trypsin) at atmospheric pressure. However, those hydrolysates retained some residual IgE-binding properties that could be traced to the preferential release, during the initial stages of proteolysis, of peptides containing IgE epitopes, such as (Val-41-Lys-60), (Leu-149-Ile-162), and (Ser-21-Arg-40). The formation of these fragments was favored when proteolysis was conducted under high pressure due to the preferential hydrolysis of Arg-40 and Arg-148 by trypsin, and Tyr-42 and Leu-149 by chymotrypsin, all located at the dimer interface of β-Lg or very close to it. Although our results do not support that trypsin and chymotrypsin under high pressure selectively address the allergenic regions of β-Lg, it is possible to select the conditions that quickly produce hydrolysates with reduced potential allergenicity that could be used in hypoallergenic foods.
doi_str_mv 10.4315/0362-028X-71.7.1453
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The formation of these fragments was favored when proteolysis was conducted under high pressure due to the preferential hydrolysis of Arg-40 and Arg-148 by trypsin, and Tyr-42 and Leu-149 by chymotrypsin, all located at the dimer interface of β-Lg or very close to it. 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Milk-based hypoallergenic ingredients are manufactured by enzymatic hydrolysis, a process that could be improved by the application of high-pressure treatments. This study showed that the treatment of β-Lg dissolved in buffer with chymotrypsin and trypsin under high pressure for relatively short times accelerated proteolysis by leading to a rapid removal of the intact protein. The rapid proteolysis of the β-Lg substrate under pressure led to the production, in 20 min, of hydrolysates with lower immunoglobulin (Ig) G binding than those produced in 8 h (chymotrypsin) or 48 h (trypsin) at atmospheric pressure. However, those hydrolysates retained some residual IgE-binding properties that could be traced to the preferential release, during the initial stages of proteolysis, of peptides containing IgE epitopes, such as (Val-41-Lys-60), (Leu-149-Ile-162), and (Ser-21-Arg-40). The formation of these fragments was favored when proteolysis was conducted under high pressure due to the preferential hydrolysis of Arg-40 and Arg-148 by trypsin, and Tyr-42 and Leu-149 by chymotrypsin, all located at the dimer interface of β-Lg or very close to it. Although our results do not support that trypsin and chymotrypsin under high pressure selectively address the allergenic regions of β-Lg, it is possible to select the conditions that quickly produce hydrolysates with reduced potential allergenicity that could be used in hypoallergenic foods.</description><subject>allergens</subject><subject>Animals</subject><subject>binding capacity</subject><subject>Biological and medical sciences</subject><subject>blood serum</subject><subject>Chromatography, High Pressure Liquid</subject><subject>chymotrypsin</subject><subject>Chymotrypsin - metabolism</subject><subject>enzymatic hydrolysis</subject><subject>Epitopes</subject><subject>food allergies</subject><subject>Food industries</subject><subject>Food microbiology</subject><subject>food processing</subject><subject>food processing quality</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>high pressure treatment</subject><subject>humans</subject><subject>Hydrolysis</subject><subject>Hydrostatic Pressure</subject><subject>immunoglobulin E</subject><subject>Immunoglobulin E - immunology</subject><subject>Immunoglobulin E - metabolism</subject><subject>immunoglobulin G</subject><subject>lactoglobulins</subject><subject>Lactoglobulins - immunology</subject><subject>Lactoglobulins - metabolism</subject><subject>milk</subject><subject>Milk - enzymology</subject><subject>Milk - metabolism</subject><subject>Milk and cheese industries. Ice creams</subject><subject>Milk Hypersensitivity - immunology</subject><subject>Milk Hypersensitivity - prevention &amp; control</subject><subject>pepsin</subject><subject>Peptide Fragments</subject><subject>protein hydrolysates</subject><subject>proteolysis</subject><subject>Time Factors</subject><subject>trypsin</subject><subject>Trypsin - metabolism</subject><issn>0362-028X</issn><issn>1944-9097</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpF0M1u1DAQwHELUdFt6RMggS_0lsVfie0jVIWttAhEW6k3a-KMt0FJ3NrJYc-8EQ_CM5HtrtrTSKPfzOFPyDvOlkry8hOTlSiYMHeF5ku95KqUr8iCW6UKy6x-TRbP4pic5PybMSasqN6QY24qw6yqFuTPatuk2G1zm-k0NJjoqt3c06dtHmFsPf2ZMOcpIYVMgX5HGDK9ifQXNpNHOt4j_dIOTTtsaAz0399iDX6Mmy7WU9cOdIz0qu-n4WVzSUOKPV1NPQz0GhO8JUcBuoxnh3lKbr9e3lysivWPb1cXn9eFV0yMBXLDFVpryqYsmdCcWw5QitIwbVEa1D5ALTWI0Fjpq1By7X2Fqg4-qLqRp-R8__chxccJ8-j6NnvsOhgwTtlVVlotjJmh3EM_R8gJg3tIbQ9p6zhzu_ZuV9btyjrNnXa79vPV-8P7qe6xebk5xJ7BxwOA7KELCQbf5mcnWMmsFGp2H_YuQHSwSbO5vRaMS8Ys11YJ-R9pRZd0</recordid><startdate>20080701</startdate><enddate>20080701</enddate><creator>Chicon, R</creator><creator>Belloque, J</creator><creator>Alonso, E</creator><creator>Martin-Alvarez, P.J</creator><creator>Lopez-Fandino, R</creator><general>International Association of Milk, Food and Environmental Sanitarians</general><scope>FBQ</scope><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20080701</creationdate><title>Hydrolysis under High Hydrostatic Pressure as a Means To Reduce the Binding of β-Lactoglobulin to Immunoglobulin E from Human Sera</title><author>Chicon, R ; Belloque, J ; Alonso, E ; Martin-Alvarez, P.J ; Lopez-Fandino, R</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c402t-e1814e9985d550271191aa5258079e38e7cfab37a2fd93c6f517cc6e4bfcf4bd3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2008</creationdate><topic>allergens</topic><topic>Animals</topic><topic>binding capacity</topic><topic>Biological and medical sciences</topic><topic>blood serum</topic><topic>Chromatography, High Pressure Liquid</topic><topic>chymotrypsin</topic><topic>Chymotrypsin - metabolism</topic><topic>enzymatic hydrolysis</topic><topic>Epitopes</topic><topic>food allergies</topic><topic>Food industries</topic><topic>Food microbiology</topic><topic>food processing</topic><topic>food processing quality</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>high pressure treatment</topic><topic>humans</topic><topic>Hydrolysis</topic><topic>Hydrostatic Pressure</topic><topic>immunoglobulin E</topic><topic>Immunoglobulin E - immunology</topic><topic>Immunoglobulin E - metabolism</topic><topic>immunoglobulin G</topic><topic>lactoglobulins</topic><topic>Lactoglobulins - immunology</topic><topic>Lactoglobulins - metabolism</topic><topic>milk</topic><topic>Milk - enzymology</topic><topic>Milk - metabolism</topic><topic>Milk and cheese industries. Ice creams</topic><topic>Milk Hypersensitivity - immunology</topic><topic>Milk Hypersensitivity - prevention &amp; control</topic><topic>pepsin</topic><topic>Peptide Fragments</topic><topic>protein hydrolysates</topic><topic>proteolysis</topic><topic>Time Factors</topic><topic>trypsin</topic><topic>Trypsin - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Chicon, R</creatorcontrib><creatorcontrib>Belloque, J</creatorcontrib><creatorcontrib>Alonso, E</creatorcontrib><creatorcontrib>Martin-Alvarez, P.J</creatorcontrib><creatorcontrib>Lopez-Fandino, R</creatorcontrib><collection>AGRIS</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Journal of food protection</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Chicon, R</au><au>Belloque, J</au><au>Alonso, E</au><au>Martin-Alvarez, P.J</au><au>Lopez-Fandino, R</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Hydrolysis under High Hydrostatic Pressure as a Means To Reduce the Binding of β-Lactoglobulin to Immunoglobulin E from Human Sera</atitle><jtitle>Journal of food protection</jtitle><addtitle>J Food Prot</addtitle><date>2008-07-01</date><risdate>2008</risdate><volume>71</volume><issue>7</issue><spage>1453</spage><epage>1459</epage><pages>1453-1459</pages><issn>0362-028X</issn><eissn>1944-9097</eissn><coden>JFPRDR</coden><abstract>Cows' milk allergy is the most frequent food allergy in children, and β-lactoglobulin (β-Lg) is a major allergen. Milk-based hypoallergenic ingredients are manufactured by enzymatic hydrolysis, a process that could be improved by the application of high-pressure treatments. This study showed that the treatment of β-Lg dissolved in buffer with chymotrypsin and trypsin under high pressure for relatively short times accelerated proteolysis by leading to a rapid removal of the intact protein. The rapid proteolysis of the β-Lg substrate under pressure led to the production, in 20 min, of hydrolysates with lower immunoglobulin (Ig) G binding than those produced in 8 h (chymotrypsin) or 48 h (trypsin) at atmospheric pressure. However, those hydrolysates retained some residual IgE-binding properties that could be traced to the preferential release, during the initial stages of proteolysis, of peptides containing IgE epitopes, such as (Val-41-Lys-60), (Leu-149-Ile-162), and (Ser-21-Arg-40). The formation of these fragments was favored when proteolysis was conducted under high pressure due to the preferential hydrolysis of Arg-40 and Arg-148 by trypsin, and Tyr-42 and Leu-149 by chymotrypsin, all located at the dimer interface of β-Lg or very close to it. Although our results do not support that trypsin and chymotrypsin under high pressure selectively address the allergenic regions of β-Lg, it is possible to select the conditions that quickly produce hydrolysates with reduced potential allergenicity that could be used in hypoallergenic foods.</abstract><cop>Des Moines, IA</cop><pub>International Association of Milk, Food and Environmental Sanitarians</pub><pmid>18680946</pmid><doi>10.4315/0362-028X-71.7.1453</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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source MEDLINE; EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection
subjects allergens
Animals
binding capacity
Biological and medical sciences
blood serum
Chromatography, High Pressure Liquid
chymotrypsin
Chymotrypsin - metabolism
enzymatic hydrolysis
Epitopes
food allergies
Food industries
Food microbiology
food processing
food processing quality
Fundamental and applied biological sciences. Psychology
high pressure treatment
humans
Hydrolysis
Hydrostatic Pressure
immunoglobulin E
Immunoglobulin E - immunology
Immunoglobulin E - metabolism
immunoglobulin G
lactoglobulins
Lactoglobulins - immunology
Lactoglobulins - metabolism
milk
Milk - enzymology
Milk - metabolism
Milk and cheese industries. Ice creams
Milk Hypersensitivity - immunology
Milk Hypersensitivity - prevention & control
pepsin
Peptide Fragments
protein hydrolysates
proteolysis
Time Factors
trypsin
Trypsin - metabolism
title Hydrolysis under High Hydrostatic Pressure as a Means To Reduce the Binding of β-Lactoglobulin to Immunoglobulin E from Human Sera
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