Amino acid ingestion and glucose metabolism—A review

Interest in the effect of proteins or amino acids on glucose metabolism dates back at least a century, largely because it was demonstrated that the amino acids from ingested protein could be converted into glucose. Indeed, these observations influenced the dietary information provided to people with diabetes. Subsequently it was shown that ingested protein did not raise the blood glucose concentration. It also was shown that proteins could stimulate a rise in insulin and glucagon but the response to various proteins was different. In addition, it was shown that individual amino acids also could stimulate a rise in insulin and in glucagon concentrations. When individual amino acids are ingested by normal subjects, there is an ordering of the insulin and glucagon responses. However, the order is not the same for insulin and glucagon. In addition, the metabolic response cannot be predicted based on the functional groups of the amino acids. Thus, empirical prediction of the metabolic response to ingested single amino acids is not possible. © 2010 IUBMB IUBMB Life, 62(9): 660–668, 2010

[1]  F. Nuttall,et al.  Lysine ingestion markedly attenuates the glucose response to ingested glucose without a change in insulin response. , 2009, The American journal of clinical nutrition.

[2]  F. Nuttall,et al.  Leucine, when ingested with glucose, synergistically stimulates insulin secretion and lowers blood glucose. , 2008, Metabolism: clinical and experimental.

[3]  F. Nuttall,et al.  Regulation of hepatic glucose production and the role of gluconeogenesis in humans: is the rate of gluconeogenesis constant? , 2008, Diabetes/metabolism research and reviews.

[4]  F. Nuttall,et al.  Effect of orally administered isoleucine with and without glucose on insulin, glucagon and glucose concentrations in non-diabetic subjects , 2008 .

[5]  F. Nuttall,et al.  Effect of orally administered phenylalanine with and without glucose on insulin, glucagon and glucose concentrations. , 2006, Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme.

[6]  Kelly H. Jordan,et al.  The metabolic response to ingestion of proline with and without glucose. , 2004, Metabolism: clinical and experimental.

[7]  F. Nuttall,et al.  The metabolic response to ingested glycine. , 2002, The American journal of clinical nutrition.

[8]  F. Nuttall,et al.  Oral arginine does not stimulate an increase in insulin concentration but delays glucose disposal. , 2002, The American journal of clinical nutrition.

[9]  R. Medina‐Santillán,et al.  Effect of glycine on insulin secretion and action in healthy first-degree relatives of type 2 diabetes mellitus patients. , 2001, Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme.

[10]  F. Nuttall,et al.  Glucose appearance rate following protein ingestion in normal subjects. , 1992, Journal of the American College of Nutrition.

[11]  F. Nuttall,et al.  Metabolic response to egg white and cottage cheese protein in normal subjects. , 1990, Metabolism: clinical and experimental.

[12]  F. Nuttall,et al.  The insulin and glucose responses to meals of glucose plus various proteins in type II diabetic subjects. , 1988, Metabolism: clinical and experimental.

[13]  F. Nuttall,et al.  Effect of Protein Ingestion on the Glucose and Insulin Response to a Standardized Oral Glucose Load , 1984, Diabetes Care.

[14]  C. Kühl,et al.  Effects of oral phenylalanine load on plasma glucagon, insulin, amino acid and glucose concentrations in man. , 1978, Scandinavian journal of clinical and laboratory investigation.

[15]  L. Orci,et al.  Physiology and pathophysiology of glucagon. , 1976, Physiological reviews.

[16]  S. Genuth Effects of oral alanine administration in fasting obese subjects. , 1973, Metabolism: clinical and experimental.

[17]  J. Beck,et al.  Alimentary factors in the endocrine response to administration of arginine in man. , 1968, Lancet.

[18]  S. Fajans,et al.  Stimulation of insulin secretion by amino acids. , 1966, The Journal of clinical investigation.

[19]  S. Berger,et al.  Insulin Response to Ingested Protein in Diabetes , 1966, Diabetes.

[20]  L. Woolf,et al.  Familial hypoglycemia precipitated by amino acids. , 1956, The Journal of clinical investigation.

[21]  C. Terner The effect of p-nitrophenol on the Pasteur reaction and on aerobic phosphorylation in suspensions of the mammary gland. , 1954, The Biochemical journal.

[22]  L. H. Newburgh,et al.  THE GLYCEMIC RESPONSE TO ISOGLUCOGENIC QUANTITIES OF PROTEIN AND CARBOHYDRATE. , 1936, The Journal of clinical investigation.

[23]  H. Maclean Modern Methods in the Diagnosis and Treatment of Glycosuria and-Diabetes , 1928, Journal of The Royal Naval Medical Service.

[24]  N. W. Janney GLUCOSE FORMATION FROM PROTEIN IN DIABETES , 1916 .

[25]  N. W. Janney,et al.  THE METABOLIC RELATIONSHIP OF THE PROTEINS TO GLUCOSE III. GLUCOSE FORMATION FROM HUMAN PROTEINS , 1915 .

[26]  H. Dakin STUDIES ON THE INTERMEDIARY METABOLISM OF AMINO-ACIDS , 1913 .

[27]  G. Lusk,et al.  PHLORHIZIN DIABETES IN DOGS , 1898 .

[28]  J. Holst,et al.  Oral glutamine increases circulating glucagon-like peptide 1, glucagon, and insulin concentrations in lean, obese, and type 2 diabetic subjects. , 2009, The American journal of clinical nutrition.

[29]  M. Franz,et al.  American Diabetes Association guide to medical nutrition therapy for diabetes , 1999 .

[30]  J. Cameron,et al.  Short-term neuroendocrine effects of a large oral dose of monosodium glutamate in fasting male subjects. , 1996, The Journal of clinical endocrinology and metabolism.

[31]  R. Brereton Letter: Treatment of spina bifida. , 1975, Lancet.

[32]  S. Fajans,et al.  Effect of amino acids and proteins on insulin secretion in man. , 1967, Recent progress in hormone research.