Proline and hydroxyproline metabolism: implications for animal and human nutrition

Proline plays important roles in protein synthesis and structure, metabolism (particularly the synthesis of arginine, polyamines, and glutamate via pyrroline-5-carboxylate), and nutrition, as well as wound healing, antioxidative reactions, and immune responses. On a per-gram basis, proline plus hydr...

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Veröffentlicht in:	Amino acids 2011-04, Vol.40 (4), p.1053-1063
Hauptverfasser:	Wu, Guoyao, Bazer, Fuller W, Burghardt, Robert C, Johnson, Gregory A, Kim, Sung Woo, Knabe, Darrell A, Li, Peng, Li, Xilong, McKnight, Jason R, Satterfield, M. Carey, Spencer, Thomas E
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Schlagworte:	Amino acids Analytical Chemistry Animal Nutritional Physiological Phenomena Animals Arginine - metabolism Biochemical Engineering Biochemistry Biomedical and Life Sciences Birds Chickens Collagen - chemistry Collagen - metabolism Diet Dietary Supplements - analysis Diets Fishes Glutamates Glutamic Acid - metabolism Glutamine - metabolism Growth Health Human Humans Hydroxyproline - metabolism Infant Infant, Newborn Invited Review Life Sciences Milk - chemistry Milk - metabolism Neurobiology Nutrition Nutritional Requirements Proline Proline - metabolism Protein synthesis Proteomics Pyrroles - metabolism Swine
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description	Proline plays important roles in protein synthesis and structure, metabolism (particularly the synthesis of arginine, polyamines, and glutamate via pyrroline-5-carboxylate), and nutrition, as well as wound healing, antioxidative reactions, and immune responses. On a per-gram basis, proline plus hydroxyproline are most abundant in collagen and milk proteins, and requirements of proline for whole-body protein synthesis are the greatest among all amino acids. Therefore, physiological needs for proline are particularly high during the life cycle. While most mammals (including humans and pigs) can synthesize proline from arginine and glutamine/glutamate, rates of endogenous synthesis are inadequate for neonates, birds, and fish. Thus, work with young pigs (a widely used animal model for studying infant nutrition) has shown that supplementing 0.0, 0.35, 0.7, 1.05, 1.4, and 2.1% proline to a proline-free chemically defined diet containing 0.48% arginine and 2% glutamate dose dependently improved daily growth rate and feed efficiency while reducing concentrations of urea in plasma. Additionally, maximal growth performance of chickens depended on at least 0.8% proline in the diet. Likewise, dietary supplementation with 0.07, 0.14, and 0.28% hydroxyproline (a metabolite of proline) to a plant protein-based diet enhanced weight gains of salmon. Based on its regulatory roles in cellular biochemistry, proline can be considered as a functional amino acid for mammalian, avian, and aquatic species. Further research is warranted to develop effective strategies of dietary supplementation with proline or hydroxyproline to benefit health, growth, and development of animals and humans.
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While most mammals (including humans and pigs) can synthesize proline from arginine and glutamine/glutamate, rates of endogenous synthesis are inadequate for neonates, birds, and fish. Thus, work with young pigs (a widely used animal model for studying infant nutrition) has shown that supplementing 0.0, 0.35, 0.7, 1.05, 1.4, and 2.1% proline to a proline-free chemically defined diet containing 0.48% arginine and 2% glutamate dose dependently improved daily growth rate and feed efficiency while reducing concentrations of urea in plasma. Additionally, maximal growth performance of chickens depended on at least 0.8% proline in the diet. Likewise, dietary supplementation with 0.07, 0.14, and 0.28% hydroxyproline (a metabolite of proline) to a plant protein-based diet enhanced weight gains of salmon. Based on its regulatory roles in cellular biochemistry, proline can be considered as a functional amino acid for mammalian, avian, and aquatic species. 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Carey</creatorcontrib><creatorcontrib>Spencer, Thomas E</creatorcontrib><title>Proline and hydroxyproline metabolism: implications for animal and human nutrition</title><title>Amino acids</title><addtitle>Amino Acids</addtitle><addtitle>Amino Acids</addtitle><description>Proline plays important roles in protein synthesis and structure, metabolism (particularly the synthesis of arginine, polyamines, and glutamate via pyrroline-5-carboxylate), and nutrition, as well as wound healing, antioxidative reactions, and immune responses. On a per-gram basis, proline plus hydroxyproline are most abundant in collagen and milk proteins, and requirements of proline for whole-body protein synthesis are the greatest among all amino acids. Therefore, physiological needs for proline are particularly high during the life cycle. While most mammals (including humans and pigs) can synthesize proline from arginine and glutamine/glutamate, rates of endogenous synthesis are inadequate for neonates, birds, and fish. Thus, work with young pigs (a widely used animal model for studying infant nutrition) has shown that supplementing 0.0, 0.35, 0.7, 1.05, 1.4, and 2.1% proline to a proline-free chemically defined diet containing 0.48% arginine and 2% glutamate dose dependently improved daily growth rate and feed efficiency while reducing concentrations of urea in plasma. Additionally, maximal growth performance of chickens depended on at least 0.8% proline in the diet. Likewise, dietary supplementation with 0.07, 0.14, and 0.28% hydroxyproline (a metabolite of proline) to a plant protein-based diet enhanced weight gains of salmon. Based on its regulatory roles in cellular biochemistry, proline can be considered as a functional amino acid for mammalian, avian, and aquatic species. Further research is warranted to develop effective strategies of dietary supplementation with proline or hydroxyproline to benefit health, growth, and development of animals and humans.</description><subject>Amino acids</subject><subject>Analytical Chemistry</subject><subject>Animal Nutritional Physiological Phenomena</subject><subject>Animals</subject><subject>Arginine - metabolism</subject><subject>Biochemical Engineering</subject><subject>Biochemistry</subject><subject>Biomedical and Life Sciences</subject><subject>Birds</subject><subject>Chickens</subject><subject>Collagen - chemistry</subject><subject>Collagen - metabolism</subject><subject>Diet</subject><subject>Dietary Supplements - analysis</subject><subject>Diets</subject><subject>Fishes</subject><subject>Glutamates</subject><subject>Glutamic Acid - metabolism</subject><subject>Glutamine - metabolism</subject><subject>Growth</subject><subject>Health</subject><subject>Human</subject><subject>Humans</subject><subject>Hydroxyproline - metabolism</subject><subject>Infant</subject><subject>Infant, Newborn</subject><subject>Invited Review</subject><subject>Life Sciences</subject><subject>Milk - chemistry</subject><subject>Milk - metabolism</subject><subject>Neurobiology</subject><subject>Nutrition</subject><subject>Nutritional Requirements</subject><subject>Proline</subject><subject>Proline - metabolism</subject><subject>Protein synthesis</subject><subject>Proteomics</subject><subject>Pyrroles - metabolism</subject><subject>Swine</subject><issn>0939-4451</issn><issn>1438-2199</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GNUQQ</sourceid><recordid>eNp9kV9vFCEUxYnR2LX6AXzRSXzQl9F7YRjAB5Om8V_SRKP2mTAss6WZgS3MmG4_vWxmbaqJvgDh_s7hcg8hTxFeI4B4k8tC2xoQahDI65t7ZIUNkzVFpe6TFSim6qbheEQe5XwJgFRi-5AcUWiVEJyuyLevKQ4-uMqEdXWxW6d4vdserkY3ma4c8_i28uN28NZMPoZc9TEV3o9mWGTzaEIV5in5ff0xedCbIbsnh_2YnH94_-P0U3325ePn05Oz2nJFp9oqS62glvai513n0ABH0UpHleMddRK5QsWMVShbcIhO9pQrZrlo2tZadkzeLb7buRvd2rowJTPobSqNpZ2Oxus_K8Ff6E38qZkQjLVtMXh5MEjxanZ50qPP1g2DCS7OWUsuqYRG8EK--i9Zhq4Ek6Xlgr74C72McwplEBpBcc4kSFEoXCibYs7J9bdtI-h9tnrJVpds9T5bfVM0z-7-91bxO8wC0AXIpRQ2Lt19-t-uzxdRb6I2m-SzPv9OARngvlvg7Bexp7mn</recordid><startdate>20110401</startdate><enddate>20110401</enddate><creator>Wu, Guoyao</creator><creator>Bazer, Fuller W</creator><creator>Burghardt, Robert C</creator><creator>Johnson, Gregory A</creator><creator>Kim, Sung Woo</creator><creator>Knabe, Darrell A</creator><creator>Li, Peng</creator><creator>Li, Xilong</creator><creator>McKnight, Jason R</creator><creator>Satterfield, M. 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Therefore, physiological needs for proline are particularly high during the life cycle. While most mammals (including humans and pigs) can synthesize proline from arginine and glutamine/glutamate, rates of endogenous synthesis are inadequate for neonates, birds, and fish. Thus, work with young pigs (a widely used animal model for studying infant nutrition) has shown that supplementing 0.0, 0.35, 0.7, 1.05, 1.4, and 2.1% proline to a proline-free chemically defined diet containing 0.48% arginine and 2% glutamate dose dependently improved daily growth rate and feed efficiency while reducing concentrations of urea in plasma. Additionally, maximal growth performance of chickens depended on at least 0.8% proline in the diet. Likewise, dietary supplementation with 0.07, 0.14, and 0.28% hydroxyproline (a metabolite of proline) to a plant protein-based diet enhanced weight gains of salmon. 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subjects	Amino acids Analytical Chemistry Animal Nutritional Physiological Phenomena Animals Arginine - metabolism Biochemical Engineering Biochemistry Biomedical and Life Sciences Birds Chickens Collagen - chemistry Collagen - metabolism Diet Dietary Supplements - analysis Diets Fishes Glutamates Glutamic Acid - metabolism Glutamine - metabolism Growth Health Human Humans Hydroxyproline - metabolism Infant Infant, Newborn Invited Review Life Sciences Milk - chemistry Milk - metabolism Neurobiology Nutrition Nutritional Requirements Proline Proline - metabolism Protein synthesis Proteomics Pyrroles - metabolism Swine
title	Proline and hydroxyproline metabolism: implications for animal and human nutrition
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