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International Journal of Food Sciences and Nutrition Volume 43, 1992 - Issue 1
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Review Article

Glutamine in parenteral nutrition

M. Elia Dunn Clinical Nutrition Centre, 100 Tennis Court Road, Cambridge, CB2 1QL, UK
Pages 47-59 | Published online: 06 Jul 2009

References

  • Abumrad N N., Morse E L, Lochs H, Williams P E, Adibi S A. Possible sources of glutamine for parenteral nutrition: impact on glutamine metabolism. Am. J. Physiol. 1989; 257: E228–E234
  • Adibi S A., Krzysik B A, Drash A L. Metabolism of intravenously administered dipeptides in rats. Effects on amino acid pools, glucose concentration and insulin and glucagon secretion. Clin. Sci. 1977; 52: 193–204
  • Adibi S A., Paleos G A, Morse E L. Influence of molecular structure on half‐life and hydrolysis of dipeptides in plasma: importance of glycine as N‐terminal amino acid residue. Metabolism 1986; 35: 830–836
  • Adibi S A. Utilization of intravenously administered peptides: influence of molecular structure. Contrib. Infusion Ther. Clin. Nutr. 1987; 17: 69–102
  • Albers S, Wernerman J, Stehle P, Vinnars E, Furst P. Availability of amino acids supplied intravenously in healthy man as synthetic dipeptides: kinetic evaluation of L‐alanyl‐L‐glutamine and L‐glycyl‐L‐tyrosine. Clin. Sci. 1988; 75: 463–465
  • Albers S, Wernerman J, Stehle P, Vinnars E, Furst P. Availability of amino acids supplied by constant intravenous influsion of synthetic dipeptides in healthy man. Clin. Sci. 1989; 76: 643–648
  • Aqvist S, Wretlind A. Pyrrolidine carboxylic acid in enzymatic casein hydrolysates. Acta Phys. Scand. 1957; 39: 147–157
  • Ardawi M S. M, Newsholme E A. Fuel utilization in colonocytes of the rat. Biochem. J. 1985; 231: 713–719
  • Ardawi M S. M, Newsholme E A. Fuel utilization in colonocytes of the rat'. Biochem. J. 1985; 231: 713–719
  • Ardawi M S M. Glutamine and glucose metabolism in human peripheral lymphocytes. Metabolism 1988; 37: 99–103
  • Baskervilie A, Hambleton P, Benbough J E. Pathogenic features of glutamine toxicity. Br. J. Exp. Pathol. 1980; 61: 132–138
  • Bergström J, Furst P, Noree L ‐O, Vinnars E. Intracellular free amino acid concentration in human muscle tissue. J. Appl. Phys. 1974; 36: 693–697
  • Birkhill F R., Maloney M A, Levenson J M. Effect of transfusion polycythaemia upon bone marrow activity and erythrocyte survival in man. Blood 1951; 6: 1021–1033
  • Brandl M, Sailer D, Langer K, Engelhardt H, Kleinhenz H, Adibi S A., Fekl W. Parenteral nutrition with an amino acid solution containing a mixture of dipeptids. Evidence for efficient utilization of dipeptides in man. Contrib. Infusion Ther. Clin. Nutr. 1987; 17: 103–116
  • Broviac J W., Scriber B H. Prolonged parenteral nutrition in the home. Surg. Gynecol. Obst. 1974; 139: 24–28
  • Brunschwig A, Clark D E., Corbir N. Postoperative nitrogen loss and studies on parenteral nutrition by means of casein digestion. Ann. Surg. 1942; 115: 1091–1105
  • Caldwell M D. Local glutamine metabolism in wounds and inflammation. Metabolism 1989; 38S: 34–39
  • Chibnall A C., Westall R G. The estimation of glutamine in the presence of asparagine. Biochem. J. 1932; 26: 122–132
  • Christensen J H. Peptide wastage consequent to the infusion of two protein hydrolysates. J. Nutr. 1950; 42: 189–193
  • Christensen H N., Wilber P B, Coyne B A, Fisher J H. Effects of simultaneous prior infusion of sugars on the fate of infused protein hydrolysates. J. Clin. Invest. 1955; 34: 86–94
  • Daabees T T., Stegingk L D. L‐alanyl‐L‐tyrosine as a tyrosine source during intravenous nutrition in the rat. J. Nutr. 1978; 108: 1104–1113
  • Darmaun D, Dechelotte P. Role of leucine as a precursor of glutamine α‐amino nitrogen in vivo in humans. Am. J. Physiol. 1991; 260: E326–E329
  • Darmaun D, Matthews D E., Bier D M. Glutamine and glutamate kinetics in humans. Am. J. Physiol. 1986; 251: E117–E126
  • Dickinson J C., Rosenblum H, Hamilton P B. Ion exchange chromatography of the free amino acids in the plasma of the newborn infant. Pediatrics 1965; 36: 2–13
  • Dudrick S J., Wilmore D W, Vars H M, Rhoads J E. Long‐term parenteral nutrition with growth development and positive nitrogen balance. Surgery 1968; 64: 134–141
  • Eagle H. Nutritional needs of mammalian cells in tissue cultures. Science 1955; 122: 501–504
  • Eagle H, Oyama V I., Levy M, Horton C L, Fleischman R. The growth repsonse of mammalian cells in tissue culture to L‐glutamine and L‐glutamic acid. J. Biol Chem. 1956; 218: 607–616
  • Elia M, Livesey G. Branched‐chain amino acid and oxo acid metabolism in human and rat muscle. Metabolism and clinical implications of branched chain amino and keto acids, M Walser, J R. Williamson. Elsevier/ North Holland, Amsterdam 1981; 257–262
  • Elia M, Livesey G. Effects of ingested steak and infused leucine on forelimb metabolism in man and the fate of the carbon skeletons and amino groups of branced‐chain amino acids. Clin. Sci. 1983; 64: 517–526
  • Elia M, Lunn P G. The place of some newer techniques in studies of nutrition in the hospitalized patient. J. Hum. Nutr. Diet. 1989; 2: 85–94
  • Elia M, Neale G, Livesey G. Alanine and glutamine release from the human forearm: effects of glucose administration. Clin. Sci. 1985; 69: 123–133
  • Elia M, Schlatmann A, Goren A, Austin S. Amino acid metabolism in muscle and in the whole body of man before and after ingestion of a single mixed meal. Am. J. Clin. Nutr. 1989; 49: 1203–1210
  • Elia M. Artificial nutrition support. Med. Intern 1990; 82: 3392–3396
  • Elia M. The inter‐organ flux of substrates in fed and fasted man as indicated by arterio‐venous balance stuides. Nutr. Res. Rev. 1991; 4: 3–31
  • Elman R. Amino acid content of blood following intravenous injection of hydrolyzed casein. Proc. Soc. Exp. Biol. Med. 1937; 37: 437–440
  • Elman R. Parenteral replacement of protein with amino acids of hydrolyzed casein. Ann. Surg. 1940; 112: 595–602
  • Fetig P, Wahren P, Raf L. Evidence of inter‐organ amino‐acid transport by blood cells in humans. Proc. Nat. Acad. Sci. USA 1973; 70: 1775–1779
  • Filer U, Garattini S, Kare M R., Reynolds W A, Wurtman R J. Glutamic acid: advances in biochemistry and physiology. Raven Press, New York 1979
  • Fonseca‐Wolfheim F. Deamidation of glutamine by increased plasma gamma glutamyltransferase is a source of rapid ammonia formation in blood and plasma specimens. Clin. Chem. 1990; 36: 1479–1482
  • Frayn K N., Khan K, Coppack S W, Elia M. Amino acid metabolism in human subcutaneous tissues in vivo. Clin. Sci. 1991; 80: 471–474
  • Furst P, Albers S, Stehle D. Stress‐induced intracellular glutamine depletion. The potential use of glutamine containing peptides in parenteral nutrition. Contrib. Infusion Ther. Clin. Nutr. 1987; 17: 117–136
  • Furst P, Albers S, Stehle P. Glutamine‐containing dipeptides in parenteral nutrition. J. Parenter. Ent. Nutr. 1990; 14: 118S–124S
  • Gilbert J, Price V E., Greenstein J P. Effect of anions on the non‐enzymatic deamidation of glutamine. J. Biol. Chem. 1949; 180: 209–218
  • Golden M H. N, Jahoor P, Jackson A A. Glutamine production and its contribution to urinary ammonia in man. Clin. Sci. 1982; 62: 299–305
  • Goldstein S A., Elwyn D H. Effect of injury and sepsis on fuel utilization. Ann. Rev. Nutr. 1989; 9: 445–473
  • Groeger U, Stehle P, Furst P, Leuchtenberger W, Drauz K. Papain‐catalysed synthesis of dipeptides. Food Biotech. 1989; 2: 187–198
  • Hagenfeldt L S., Eriksson S, Wahren J. Influence of leucine on arterial concentrations and regional exchange of amino acids in healthy subjects. Clin. Sci. 1980; 59: 173–181
  • Hamilton P B. Glutamine: a major constituent of free a‐amino acids in animal tissues and blood plasma. J. Biol. Chem. 1945; 158: 397–409
  • hammarqvist F, Wernerman J, Ali R, Von der Decken A, Vinnars E. Addition of glutamine to total parenteral nutrition after elective abdominal surgery spares free glutamine in muscle, counteracts the fall in muscle protein synthesis, and improves nitrogen balance. Ann. Surg. 1989; 209: 455–461
  • Herkowitz K, Martin T D., Austgen T R, Copeland E M, Souba W W. The effects of hypothermic anaesthesia on gut fuel metabolism. Surg. Forum 1990; 41: 300–302
  • Hinshaw D B., Burger J M. Protective effect of glutamine on endothelial cell ATP in oxidant injury. J. Surg. Res. 1990; 49: 222–227
  • Hlasiwetz H, Habermann J. Über die Proteinstoffe. Ann. Chem. Pharm. 1873; 169: 150–166
  • Hollman R L., Mahoney E B, Whipple G H. Blood plasma protein given by vein utilized in body metabolism. II. Dynamic equilibrium between plasma and tissue proteins. J. Exp. Med. 1934; 59: 269–282
  • Hundal H S., Rennie M J. Skeletal muscle tissue contains extracellular aminopeptidase activity against Ala‐Gin but no peptidase transporter. Eur. J. Clin. Invest. 1988; 18(A34)163
  • Jackson A A. The glycine story. Eur. J. Clin. Nutr. 1991; 45: 59–65
  • Jepson M M., Bates P C, Broadbent P, Pell J M, Millward D J. Relationship between glutamine concentration and protein synthesis in rat skeletal muscle. Am. J. Physiol. 1988; 255: E166–E172
  • Just B, Messing B, Rongier M, Darmaun D. Clin. Nutr. 1991; 10: 27, suppl
  • Karatzas T, Scopa S, Tsoni I, Kanagopoulos K, Spiliopoulou I, Moschos S, Vagianos K, Kalfarent‐zos F. Effect of glutamine on intestinal mucosal integrity and bacterial translocation after abdominal radiation. Clin. Nutr. 1991; 10: 199–205
  • Karner J, Roth E. Alanylglutamine infusions to patients with acute pancreatitis. Clin. Nutr. 1990; 9: 43–45
  • Khan K, Elia M. Factors affecting the stability of L‐glutamine in solution. Clin. Nutr. 1991a; 10: 186–192
  • Khan K, Elia M (1991b) Degradation rate of L‐glutamine in various solutions. Presented at the 13th Congress of the European Society of Parenteral and Enteral Nutrition, AntwerpBelgium, September, 1–51991
  • Khan K, Hardy G, McElroy B, Elia M. The stability of glutamine in total parenteral nutrition solutions. Clin. Nutr. 1991; 10: 193–198
  • Khan K, Blaak E, Elia M. Measurement of the concentration of intermediary metabolites after a simple deproteinizing step with sulphasalicylic acid. Clin. Chem. 1991; 37: 728–733
  • Khan K, Wusteman M, Elia M. The effect of severe dietary restriction on intramuscular glutamine concentrations and protein synthetic rate. Clin. Nutr. 1991; 10: 120–124
  • Kopple J D. Amino acid metabolism in chronic renal failure. Amino acids: metabolism and medical applications, G L Blackburn, J P Grant, V R Young. John Wright, Bristol 1983; 451–471
  • Krzysik B A., Adibi S A. Cytoplasmic dipepti‐dase activities of kidney, ileum, jejunum, liver, muscle and blood. Am. J. Physiol. 1977; 233: E450–E456
  • Krzysik B A., Adibi S A. Comparison of metabolism of glycine injected intravenously in free and dipeptide forms. Metabolism 1979; 28: 1211–1217
  • Levenson S M., Birkhill F R, Maloney M A, Bell J A. The metabolic fate of the infused erythrocyte. Ann. Surg. 1949; 30: 723–746
  • Lochs H, Morse E L., Adibi S A. Mechanism of hepatic assimilation of dipeptides. Transport versus hydrolysis. J. Biol. Chem. 1986; 261: 14976–14981
  • Lochs H, Hubl W. Metabolic basis for selecting glutamine containing substrates for parenteral nutrition. J. Parenter. Ertt. Nutr. 1990; 14: 114S–117S
  • Long C L., Zikria B A, Kinney J M, Geiger J W. Comparison of fibrin hydrolysates and crystalline amino acid solutions in parenteral nutrition. Am. J. Clin. Nutr. 1974; 27: 163–174
  • Lowe D K., Benfell K, Smith R J, Jacobs D O, Murawski B, Ziegler T R, Wilmore D W. Safety of glutamine enriched parenteral nutrient solutions in humans. Am. J. Clin. Nutr. 1990; 52: 1101–1106
  • MacLennan P A., Brown R A, Rennie M J. A positive relationship between protein synthetic rate and intracellular glutamine concentration in perfused rat skeletal muscle. FEBS Lett. 1987; 215: 187–191
  • Magnusson I, Ekman L, Wangdahl M, Wahren J. N‐acetyl‐L‐tyrosine and N‐acetyl‐L‐cysteine as tyrosine and cysteine precursors during intravenous infusion in humans. Metabolism 1989; 38: 957–961
  • Meister A. Metabolism of glutamine. Physiol. Rev. 1956; 36: 103–127
  • Meister A. Enzymology of glutamine. Glutamine metabolism in mammalian tissues, D Haussinger, H Sies. Springer‐Verlag, Berlin 1984; 3–15
  • Nissim I, Yudkoff M, Segal S. Nitrogen sources for renal ammoniogenesis: study with N amino acid. Am. J. Physiol. 1986; 252: F995–F1002
  • Ollenschlager G, Simmel A, Roth E. Availability of glutamine from peptides and acetyl‐glutamine for human tumor‐cell cultures. Metabolism 1989; 38S: 40–42
  • Okabe S, Honda K, Takeuchi K, Takagi K. Inhibitory effect of L‐glutaminean gastric irritation. Digestive Dis. 1975; 20: 626–631
  • O'Dwyer S T., Smith R J, Hwang T L, Wilmore D W. Maintenance of small bowel mucosa with glutamine‐enriched parenteral nutrition. J. Parenter. Ent. Nutr. 1989; 13: 579–585
  • Paul A A., Southgate D A T. McCance and Widdowson's The Composition of Foods4th edn. HMSO, London 1978; 279–287
  • Plumley D A., Souba W W, Hautamaki D, Martin T D, Flynn T C, Rout R, Copeland E M. Accelerated lung amino acid release in hyperdynamic septic surgical patients. Arch. Surg. 1990; 125: 57–61
  • Reitzer U, Wise B M., Kennell D. Evidence that glutamine, not sugar, is the major energy source for cultured HeLa cells. J. Biol. Chem. 1979; 254: 2669–2676
  • Rombeau J. A review of the effects of glutamine‐enriched diets on experimentally induced enterocolitis. J. Parenter. Ent. Nutr. 1990; 14: 100S–105S
  • Roth E, Ollenschlager G, Hamilton G, Simmel A, Langer K, Fekl W, Jakesz R. Influence of two glutamine containing dipeptides on growth of mammalian cells in vitro. Cell Dev. Biol. 1988a; 24: 696–698
  • Roth E, Karner J, Ollenschlager G, Simmel A, Furst P, Fuvonics J. Alanyl‐glutamine reduces muscle loss of alanine and glutamine in postoperative anaesthetized dogs. Clin. Sci. 1988b; 75: 641–648
  • Roth E, Karner E, Ollenschlager G. Glutamine: an anabolic effector?. J. Parenter. Ent. Nutr. 1990; 14: 130S–136S
  • Rudman D, Hutner M, Ansley J, Jansen R, Chipponi J, Bain R P. Hypotyrosinaemia, hypocy‐steinaemia and failure to retain nitrogen during total parenteral nutrition of cirrhotic patients. Gastroenterology 1981; 81: 1025–1035
  • Schulze E, Bosshard E. Über das Glutamin. Landwitschaftlichen Versuchs‐Strationen 1883; 29: 295–307
  • Shive W, Snider R N., DuBilier B, Rude J C, Clarke G E, Ravel J O. Glutamine treatment of peptic ulcer. Texas State J. Med. 1957; 840–843, Nov. 1957
  • Souba W W., Wilmore D W. Post‐operative alterations of arteriovenous exchange of amino acids across the gastro‐intestinal tract. Surgery 1983; 94: 342–349
  • Souba W W., Plumley D A, Salloum R, Copeland E M. Effects of glucocorticoids on lung glutamine and alanine metabolism. Surgery 1990; 108: 213–219
  • Souba W W., Klimberg V S, Copeland E M. Glutamine nutrition in the management of radiation enteritis. J. Parenter. Ent. Nutr. 1990; 14: 106S–108S
  • Souba W W. Glutamine: a key substrate for the splanchnic bed. Ann. Rev. Nutr. 1991; 11: 285–308
  • Stehle P, Albers S, Pollack L, Furst P. In vivo utilization of cystine‐containing synthetic short chain peptides after intravenous bolus injection in the rat. J. Nutr. 1988a; 118: 1470–1474
  • Stehle P, Zander J, Mertes N, Albers S, Puchstein C H., Lawin P, Furst P. Effect of parenteral glutamine peptide supplements on muscle glutamine loss and nitrogen balance after major surgery. Lancet 1988b; i: 231–233
  • Stehle P, Ratz I, Furst P. In vivo utilization of intraveneously supplied L‐alanyl‐L‐glutamine in various tissues of the rat. Nutrition 1989; 5: 411–415
  • Stehle P, Bahsitta H ‐P, Monter B, Furst P. Papain‐catalysed synthesis of dipeptides. A novel approach using free amino acids as nucleophiles. Enzyme Microbiol. Technol. 1990; 12: 56–60
  • Steinhardt H L., Paleos G A, Brandl M, Fekl W L, Adibi S A. Efficacy of a synthetic dipeptide mixture as a source of amino acids for total parenteral nutrition in a subhuman primate (baboon). Plasma concentration, metabolic clearance, and urinary excretion of a series of dipeptides. Gastroenterology 1984; 86: 1562–1569
  • Steininger R, Karner J, Roth E, Langer K. Infusion of dipeptides as nutrient substrates for glut amine, tyrosine and branched‐chain amino acids in patients with acute pancreotitis. Metabolism 1989; 38S: 78–81
  • Terry R, Sandrock W E., Nye R E, Whipple G H. Parenteral plasma protein maintains nitrogen equilibrium over long periods. J. Exp. Med. 1948; 87: 547–559
  • thierfelder H, von Cram E. Über glutaminhaltige polypeptide und zur frage ihres. Vorkommens im. Z Physiol Chim 1919; 105: 58–82
  • Tizianello A, DeFerrari G, Garibotto G, Curreri G, Robaudo C. Renal metabolism of amino acids and ammonia in subjects with normal renal function and in patients with renal insufficiency. J Clin. Invest. 1980; 65: 1162–1173
  • van der Werf P, Meister A. The metabolic formation and utilization of 5‐oxo‐L‐proline (L‐pyroglutamate, L‐pyrrolidone carboxylate). Adv. Enzymol. 1975; 43: 519–556
  • van Steirterghem A C, Young D S. Amino acids in physiological fluids. Amino acid determination2nd edn, S Blackburn. Marcel Dekker Inc, New York 1978; 261–317
  • Vasquez J A., Paleos G A, Steinhardt H J, Langer K, Brandl M, Fekl W L, Adibi S A. Protein nutrition and amino acid metabolism after 4 weeks of total parenteral nutrition with a mixture of 14 dipeptides: serendipitous observations on the effects of sepsis in baboons. Am. J. Clin. Nutr. 1986; 44: 224–232
  • vinnars E, Hammarqvist F, Von der Decken A, Werneman J. Role of glutamine and its analogs in post traumatic muscle protein and amino acid metabolism. J. Parenter. Ent. Nutr. 1990; 14: 125S–129S
  • Windmueller H G. Glutamine utilization by the small intestine. Adv. Enzymol. 1982; 53: 201–237
  • Whipple G H. Hemoglobin and plasma proteins; their production, utilization and interrelation. Am. J. Med. Sci. 1947; 203: 477–489
  • Wusteman M, Wight D G D, Elia M. Protein metabolsim after injury with turpentine: a rat model for clinical trauma. Am. J. Physiol. 1990; 259: E763–E769
  • Wusteman M, Elia M. Effect of glutamine infusions on glutamine concentration and protein synthetic rate in rat muscle. J. Parenter. Ent. Nutr. 1991; 15: 521–525
  • Yuilie C L., Lamson B G, Miller L L, Whipple G H. Conversion of plasma protein to tissue protein without evidence of protein breakdown. Results of giving plasma proteins to parenterally fed dogs. J. Exp. Med. 1951; 93: 539–557
  • Yuilie C L., O'Dea A E, Lucas F V, Whipple G H. Plasma protein labelled with lysine 14C, its oral feeding and related protein metabolism in the dog. J. Exp. Med. 1952; 95: 247–254
  • Ziegler T R., Benfell K, Smith R J, Young L S, Brown E, Ferrari‐Baliviera E, Lowe D K, Wilmore D W. Safety and metabolic effects of L‐glutamine administration in humans. J. Parenter. Ent. Nutr. 1990; 14: 137S–146S
  • Zielke H R., Sumbilla C M, Zielke C L, Tildon J T, Ozand P T. GLutamine metabolism by cultured mammalian cells. Glutamine metabolism in mammalian tissues, D Hausinger, H Sies. Springer‐Verlag, Berlin 1984; 247–254

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