Histidine Content of Low-Molecular-Weight Beef Proteins Influences Nonheme Iron Bioavailability in Caco-2 Cells

The objective of this study was to isolate and characterize beef muscle proteins that enhance nonheme iron bioavailability. Beef sirloin was cooked, lyophilized and reconstituted with water before in vitro digestion. After centrifugation, the digest supernatant was sequentially ultrafiltered using 1...

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Veröffentlicht in:	The Journal of nutrition 2002-02, Vol.132 (2), p.245-251
Hauptverfasser:	Swain, James H., Reddy, Manju B., Tabatabai, Louisa B.
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Sprache:	eng
Schlagworte:	Animals Beef beef proteins bioavailability Biological and medical sciences Biological Availability Caco-2 cells Caco-2 Cells - metabolism Cattle Cells Chemical Fractionation Chromatography, Affinity Digestion Electrophoresis, Agar Gel Filtration Food Handling histidine Histidine - pharmacology Humans Hydrogen-Ion Concentration Iron Iron - metabolism Iron - pharmacokinetics Iron Isotopes Meat - analysis Molecular Weight Muscle Proteins - analysis Muscle Proteins - metabolism nonheme iron Proteins Solubility Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
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description	The objective of this study was to isolate and characterize beef muscle proteins that enhance nonheme iron bioavailability. Beef sirloin was cooked, lyophilized and reconstituted with water before in vitro digestion. After centrifugation, the digest supernatant was sequentially ultrafiltered using 10- and 1-kDa molecular weight cut-off membranes. Nonheme iron bioavailability was assessed by Caco-2 cell monolayer 59Fe uptake using an extrinsic labeling method. All ultrafiltration fractions significantly (P < 0.001) increased iron solubility at pH 6.0, compared with the blank. However, iron uptake was significantly (P < 0.001) greater than the blank only in the presence of the 1-kDa retentate (1KR). Therefore, the 1KR was chosen for further analysis. Immobilized metal affinity chromatography (IMAC) of the 1KR yielded four fractions, i.e., three distinct fractions (F1, F3, F4) and one fraction (F2) comprised of a few closely associated peaks. All four IMAC fractions resulted in significantly (P < 0.001) greater (two- to fivefold) iron solubility at pH 6.0, compared with the blank. Iron uptake with F2 and F4 was significantly greater than the blank (P < 0.001 and P < 0.05, respectively). Gel electrophoresis and matrix-assisted laser desorption/ionization analysis illustrated that F1–F4 contained many peptides ranging from 1- to 7-kDa. Amino acid composition analysis revealed that histidine concentration increased progressively from F1 to F4, corresponding to a general, but not parallel increase in iron solubility and uptake. Our results suggest that the enhancement of nonheme iron absorption by beef may be due to peptides produced during gastrointestinal digestion and that histidine content may be important.
doi_str_mv	10.1093/jn/132.2.245
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Beef sirloin was cooked, lyophilized and reconstituted with water before in vitro digestion. After centrifugation, the digest supernatant was sequentially ultrafiltered using 10- and 1-kDa molecular weight cut-off membranes. Nonheme iron bioavailability was assessed by Caco-2 cell monolayer 59Fe uptake using an extrinsic labeling method. All ultrafiltration fractions significantly (P < 0.001) increased iron solubility at pH 6.0, compared with the blank. However, iron uptake was significantly (P < 0.001) greater than the blank only in the presence of the 1-kDa retentate (1KR). Therefore, the 1KR was chosen for further analysis. Immobilized metal affinity chromatography (IMAC) of the 1KR yielded four fractions, i.e., three distinct fractions (F1, F3, F4) and one fraction (F2) comprised of a few closely associated peaks. All four IMAC fractions resulted in significantly (P < 0.001) greater (two- to fivefold) iron solubility at pH 6.0, compared with the blank. Iron uptake with F2 and F4 was significantly greater than the blank (P < 0.001 and P < 0.05, respectively). Gel electrophoresis and matrix-assisted laser desorption/ionization analysis illustrated that F1–F4 contained many peptides ranging from 1- to 7-kDa. Amino acid composition analysis revealed that histidine concentration increased progressively from F1 to F4, corresponding to a general, but not parallel increase in iron solubility and uptake. 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Beef sirloin was cooked, lyophilized and reconstituted with water before in vitro digestion. After centrifugation, the digest supernatant was sequentially ultrafiltered using 10- and 1-kDa molecular weight cut-off membranes. Nonheme iron bioavailability was assessed by Caco-2 cell monolayer 59Fe uptake using an extrinsic labeling method. All ultrafiltration fractions significantly (P < 0.001) increased iron solubility at pH 6.0, compared with the blank. However, iron uptake was significantly (P < 0.001) greater than the blank only in the presence of the 1-kDa retentate (1KR). Therefore, the 1KR was chosen for further analysis. Immobilized metal affinity chromatography (IMAC) of the 1KR yielded four fractions, i.e., three distinct fractions (F1, F3, F4) and one fraction (F2) comprised of a few closely associated peaks. All four IMAC fractions resulted in significantly (P < 0.001) greater (two- to fivefold) iron solubility at pH 6.0, compared with the blank. Iron uptake with F2 and F4 was significantly greater than the blank (P < 0.001 and P < 0.05, respectively). Gel electrophoresis and matrix-assisted laser desorption/ionization analysis illustrated that F1–F4 contained many peptides ranging from 1- to 7-kDa. Amino acid composition analysis revealed that histidine concentration increased progressively from F1 to F4, corresponding to a general, but not parallel increase in iron solubility and uptake. Our results suggest that the enhancement of nonheme iron absorption by beef may be due to peptides produced during gastrointestinal digestion and that histidine content may be important.</description><subject>Animals</subject><subject>Beef</subject><subject>beef proteins</subject><subject>bioavailability</subject><subject>Biological and medical sciences</subject><subject>Biological Availability</subject><subject>Caco-2 cells</subject><subject>Caco-2 Cells - metabolism</subject><subject>Cattle</subject><subject>Cells</subject><subject>Chemical Fractionation</subject><subject>Chromatography, Affinity</subject><subject>Digestion</subject><subject>Electrophoresis, Agar Gel</subject><subject>Filtration</subject><subject>Food Handling</subject><subject>histidine</subject><subject>Histidine - pharmacology</subject><subject>Humans</subject><subject>Hydrogen-Ion Concentration</subject><subject>Iron</subject><subject>Iron - metabolism</subject><subject>Iron - pharmacokinetics</subject><subject>Iron Isotopes</subject><subject>Meat - analysis</subject><subject>Molecular Weight</subject><subject>Muscle Proteins - analysis</subject><subject>Muscle Proteins - metabolism</subject><subject>nonheme iron</subject><subject>Proteins</subject><subject>Solubility</subject><subject>Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization</subject><issn>0022-3166</issn><issn>1541-6100</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2002</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpt0U2LFDEQBuAgijuO3jxLEPRk76by0ek-uo26A-PHQfEYMumKm6EnWZPulf33ZpmBBZGC5FAPxUsVIS-BnQPrxcU-XoDg57WkekRWoCQ0LTD2mKwY47wR0LZn5Fkpe8YYyL57Ss4AOi5Up1YkXYUyhzFEpEOKM8aZJk-36U_zOU3olsnm5ieGX9czvUT09FtOM4ZY6Cb6acHosNAvKV7jAekmp0gvQ7K3Nkx2F6Yw39EQ6WBdajgdcJrKc_LE26ngi9O_Jj8-fvg-XDXbr582w_tt4yTv50YzbJ1vHVgtteqY1loJ8E4LKxwK6FvsVOcFVwrtzinJLXR2xJ2vbWm9WJO3x7k3Of1esMzmEIqrCWzEtBSjQQregqjw9T9wn5YcazYDvZZCs_qsybsjcjmVktGbmxwONt8ZYOb-CmYfTb2CqSVV5a9OM5fdAccHfFp7BW9OwBZnJ59tdKE8OCE7AKara48O66puA2ZTXLhf-hgyutmMKfw_wV-lgKFw</recordid><startdate>20020201</startdate><enddate>20020201</enddate><creator>Swain, James H.</creator><creator>Reddy, Manju B.</creator><creator>Tabatabai, Louisa B.</creator><general>Elsevier Inc</general><general>American Society for Nutritional Sciences</general><general>American Institute of Nutrition</general><scope>6I.</scope><scope>AAFTH</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>K9.</scope><scope>NAPCQ</scope><scope>7X8</scope></search><sort><creationdate>20020201</creationdate><title>Histidine Content of Low-Molecular-Weight Beef Proteins Influences Nonheme Iron Bioavailability in Caco-2 Cells</title><author>Swain, James H. ; Reddy, Manju B. ; Tabatabai, Louisa B.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c429t-70e6cf6c1a747580777531fc73a3ce3196e858f3255eabc542a18adebf3ce4af3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2002</creationdate><topic>Animals</topic><topic>Beef</topic><topic>beef proteins</topic><topic>bioavailability</topic><topic>Biological and medical sciences</topic><topic>Biological Availability</topic><topic>Caco-2 cells</topic><topic>Caco-2 Cells - metabolism</topic><topic>Cattle</topic><topic>Cells</topic><topic>Chemical Fractionation</topic><topic>Chromatography, Affinity</topic><topic>Digestion</topic><topic>Electrophoresis, Agar Gel</topic><topic>Filtration</topic><topic>Food Handling</topic><topic>histidine</topic><topic>Histidine - pharmacology</topic><topic>Humans</topic><topic>Hydrogen-Ion Concentration</topic><topic>Iron</topic><topic>Iron - metabolism</topic><topic>Iron - pharmacokinetics</topic><topic>Iron Isotopes</topic><topic>Meat - analysis</topic><topic>Molecular Weight</topic><topic>Muscle Proteins - analysis</topic><topic>Muscle Proteins - metabolism</topic><topic>nonheme iron</topic><topic>Proteins</topic><topic>Solubility</topic><topic>Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Swain, James H.</creatorcontrib><creatorcontrib>Reddy, Manju B.</creatorcontrib><creatorcontrib>Tabatabai, Louisa B.</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</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>ProQuest Health & Medical Complete (Alumni)</collection><collection>Nursing & Allied Health Premium</collection><collection>MEDLINE - Academic</collection><jtitle>The Journal of nutrition</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Swain, James H.</au><au>Reddy, Manju B.</au><au>Tabatabai, Louisa B.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Histidine Content of Low-Molecular-Weight Beef Proteins Influences Nonheme Iron Bioavailability in Caco-2 Cells</atitle><jtitle>The Journal of nutrition</jtitle><addtitle>J Nutr</addtitle><date>2002-02-01</date><risdate>2002</risdate><volume>132</volume><issue>2</issue><spage>245</spage><epage>251</epage><pages>245-251</pages><issn>0022-3166</issn><eissn>1541-6100</eissn><coden>JONUAI</coden><abstract>The objective of this study was to isolate and characterize beef muscle proteins that enhance nonheme iron bioavailability. Beef sirloin was cooked, lyophilized and reconstituted with water before in vitro digestion. After centrifugation, the digest supernatant was sequentially ultrafiltered using 10- and 1-kDa molecular weight cut-off membranes. Nonheme iron bioavailability was assessed by Caco-2 cell monolayer 59Fe uptake using an extrinsic labeling method. All ultrafiltration fractions significantly (P < 0.001) increased iron solubility at pH 6.0, compared with the blank. However, iron uptake was significantly (P < 0.001) greater than the blank only in the presence of the 1-kDa retentate (1KR). Therefore, the 1KR was chosen for further analysis. Immobilized metal affinity chromatography (IMAC) of the 1KR yielded four fractions, i.e., three distinct fractions (F1, F3, F4) and one fraction (F2) comprised of a few closely associated peaks. All four IMAC fractions resulted in significantly (P < 0.001) greater (two- to fivefold) iron solubility at pH 6.0, compared with the blank. Iron uptake with F2 and F4 was significantly greater than the blank (P < 0.001 and P < 0.05, respectively). Gel electrophoresis and matrix-assisted laser desorption/ionization analysis illustrated that F1–F4 contained many peptides ranging from 1- to 7-kDa. Amino acid composition analysis revealed that histidine concentration increased progressively from F1 to F4, corresponding to a general, but not parallel increase in iron solubility and uptake. Our results suggest that the enhancement of nonheme iron absorption by beef may be due to peptides produced during gastrointestinal digestion and that histidine content may be important.</abstract><cop>Bethesda, MD</cop><pub>Elsevier Inc</pub><pmid>11823585</pmid><doi>10.1093/jn/132.2.245</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Beef beef proteins bioavailability Biological and medical sciences Biological Availability Caco-2 cells Caco-2 Cells - metabolism Cattle Cells Chemical Fractionation Chromatography, Affinity Digestion Electrophoresis, Agar Gel Filtration Food Handling histidine Histidine - pharmacology Humans Hydrogen-Ion Concentration Iron Iron - metabolism Iron - pharmacokinetics Iron Isotopes Meat - analysis Molecular Weight Muscle Proteins - analysis Muscle Proteins - metabolism nonheme iron Proteins Solubility Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
title	Histidine Content of Low-Molecular-Weight Beef Proteins Influences Nonheme Iron Bioavailability in Caco-2 Cells
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