Influence of Varying Dietary Protein Levels on Glycation of Albumin, Tryptophan and Valine in the Plasma of Chickens
Glycation is a chemical reaction in which reducing sugars bind non-enzymatically to compounds containing amino groups. Avian species like chickens are hyperglycemic animals and have high body temperature compared to mammalian species, which enables avian species to accelerate the glycation of protei...
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Published in | The Journal of Poultry Science Vol. 54; no. 3; pp. 242 - 246 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
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Abstract | Glycation is a chemical reaction in which reducing sugars bind non-enzymatically to compounds containing amino groups. Avian species like chickens are hyperglycemic animals and have high body temperature compared to mammalian species, which enables avian species to accelerate the glycation of proteins and amino acids with glucose. Although varying dietary crude protein (CP) levels alter plasma concentrations of proteins and amino acids, the influence of varying CP levels on the glycation of plasma proteins and amino acids has not been studied so far. In the present study, therefore, glycation of albumin, tryptophan and valine in the plasma of chickens fed diets with varying CP levels (0, 10, 20, 40 and 60%) was examined. At the end of the experimental period, blood samples were collected and plasma concentrations of glycoalbumin, glycated tryptophan (tryptophan-Amadori product and (1R, 3S) - 1 - (D - gluco - 1, 2, 3, 4, 5 - pentahydroxypentyl) - 1, 2, 3, 4 - tetrahydro - β - carboline - 3 - carboxylic acid (PHP-THβC)), and valine-Amadori product were measured. Although plasma albumin concentration was reduced along with the decrease in dietary CP levels from 20% to 0%, glycoalbumin in the plasma was increased under such dietary conditions. Similar increase in the ratios of tryptophan-Amadori product to tryptophan and valine-Amadori product to valine in the plasma of chickens fed a protein-free diet was observed. These results suggest that dietary protein deficiency might enhance the non-enzymatic glycation of plasma proteins and amino acids in chickens. |
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AbstractList | Glycation is a chemical reaction in which reducing sugars bind non-enzymatically to compounds containing amino groups. Avian species like chickens are hyperglycemic animals and have high body temperature compared to mammalian species, which enables avian species to accelerate the glycation of proteins and amino acids with glucose. Although varying dietary crude protein (CP) levels alter plasma concentrations of proteins and amino acids, the influence of varying CP levels on the glycation of plasma proteins and amino acids has not been studied so far. In the present study, therefore, glycation of albumin, tryptophan and valine in the plasma of chickens fed diets with varying CP levels (0, 10, 20, 40 and 60%) was examined. At the end of the experimental period, blood samples were collected and plasma concentrations of glycoalbumin, glycated tryptophan (tryptophan-Amadori product and (1R, 3S) - 1 - (D - gluco - 1, 2, 3, 4, 5 - pentahydroxypentyl) - 1, 2, 3, 4 - tetrahydro - β - carboline - 3 - carboxylic acid (PHP-THβC)), and valine-Amadori product were measured. Although plasma albumin concentration was reduced along with the decrease in dietary CP levels from 20% to 0%, glycoalbumin in the plasma was increased under such dietary conditions. Similar increase in the ratios of tryptophan-Amadori product to tryptophan and valine-Amadori product to valine in the plasma of chickens fed a protein-free diet was observed. These results suggest that dietary protein deficiency might enhance the non-enzymatic glycation of plasma proteins and amino acids in chickens. Glycation is a chemical reaction in which reducing sugars bind non-enzymatically to compounds containing amino groups. Avian species like chickens are hyperglycemic animals and have high body temperature compared to mammalian species, which enables avian species to accelerate the glycation of proteins and amino acids with glucose. Although varying dietary crude protein (CP) levels alter plasma concentrations of proteins and amino acids, the influence of varying CP levels on the glycation of plasma proteins and amino acids has not been studied so far. In the present study, therefore, glycation of albumin, tryptophan and valine in the plasma of chickens fed diets with varying CP levels (0, 10, 20, 40 and 60%) was examined. At the end of the experimental period, blood samples were collected and plasma concentrations of glycoalbumin, glycated tryptophan (tryptophan-Amadori product and (1R, 3S) - 1 - (D - gluco - 1, 2, 3, 4, 5 - pentahydroxypentyl) - 1, 2, 3, 4 - tetrahydro - β - carboline - 3 - carboxylic acid (PHP-TH β C)), and valine-Amadori product were measured. Although plasma albumin concentration was reduced along with the decrease in dietary CP levels from 20% to 0%, glycoalbumin in the plasma was increased under such dietary conditions. Similar increase in the ratios of tryptophan-Amadori product to tryptophan and valine-Amadori product to valine in the plasma of chickens fed a protein-free diet was observed. These results suggest that dietary protein deficiency might enhance the non-enzymatic glycation of plasma proteins and amino acids in chickens. Glycation is a chemical reaction in which reducing sugars bind non-enzymatically to compounds containing amino groups. Avian species like chickens are hyperglycemic animals and have high body temperature compared to mammalian species, which enables avian species to accelerate the glycation of proteins and amino acids with glucose. Although varying dietary crude protein (CP) levels alter plasma concentrations of proteins and amino acids, the influence of varying CP levels on the glycation of plasma proteins and amino acids has not been studied so far. In the present study, therefore, glycation of albumin, tryptophan and valine in the plasma of chickens fed diets with varying CP levels (0, 10, 20, 40 and 60%) was examined. At the end of the experimental period, blood samples were collected and plasma concentrations of glycoalbumin, glycated tryptophan (tryptophan-Amadori product and (1R, 3S) - 1 - (D - gluco - 1, 2, 3, 4, 5 - pentahydroxypentyl) - 1, 2, 3, 4 - tetrahydro - - carboline - 3 - carboxylic acid (PHP-TH C)), and valine-Amadori product were measured. Although plasma albumin concentration was reduced along with the decrease in dietary CP levels from 20% to 0%, glycoalbumin in the plasma was increased under such dietary conditions. Similar increase in the ratios of tryptophan-Amadori product to tryptophan and valine-Amadori product to valine in the plasma of chickens fed a protein-free diet was observed. These results suggest that dietary protein deficiency might enhance the non-enzymatic glycation of plasma proteins and amino acids in chickens. |
Author | Kita, Kazumi Fujimura, Shinobu Honma, Ayaka Ogawa, Chiaki Sugahara, Misaki |
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Keywords | glycation chicken valine glycoalbumin tryptophan Amadori product |
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References | Li M, Zeng M, He Z, Zheng Z, Qin F, Tao G, Zhang S and Chen J. Effects of long-term exposure to free Nε-(carboxymethyl) lysine on rats fed a high-fat diet. Journal of AgriculturalFood Chemistry, 63: 10995-11001. 2015. Poosuwan K, Bunchasak C and Kaewtapee C. Long-term feeding effects of dietary protein levels on egg production, immunocompetence and plasma amino acids of laying hens in subtropical condition. Journal of Animal Physiology and Animal Nutrition, 94: 186-195. 2010. Kita K and Okumura J. Dietary protein levels alter plasma insulin like growth factor-I concentration of chicks. Japanese Poultry Science, 36: 25-30. 1999. Koenig RJ and Cerami A. Hemoglobin A1c and diabetes mellitus. Annual Review of Medicine, 31: 29-34. 1980. Khangholi S, Majid FA, Berwary NJ, Ahmad F and Aziz RB. The mechanisms of inhibition of advanced glycation end products formation through polyphenols in hyperglycemic condition. Planta Medica, 82: 32-45. 2016. Nowotny K, Jung T, Höhn A, Weber D and Grune T. Advanced glycation end products and oxidative stress in type 2 diabetes mellitus. Biomolecules, 5: 194-222. 2015. Bhonsle HS, Korwar AM, Kote SS, Golegaonkar SB, Chougale AD, Shaik ML, Dhande NL, Giri AP, Shelgikar KM, Boppana R and Kulkarni MJ. Low plasma albumin levels are associated with increased plasma protein glycation and HbA1c in diabetes. Journal of Proteome Research, 11: 1391-1396. 2012. Rittenberg D and Schoenheimer R. Deuterium as an indicator in the study of intermediary metabolism. XI. Further studies on the biological uptake of deuterium into organic substances, with special reference to fat and cholesterol formation. Journal of Biological Chemistry, 121: 235-253. 1937. Parrinello CM and Selvin E. Beyond HbA1c and glucose: the role of nontraditional glycemic markers in diabetes diagnosis, prognosis, and management. Current Diabetes Reports, 14: 548. 2014. Schoenheimer R and Rittenberg D. Deuterium as an indicator in the study of intermediary metabolism: VI. Synthesis and destruction of fatty acid in the organism. Journal of Biological Chemistry, 114: 381-396. 1936. Maillard LC. Action des acides amines sur les sucres: formation des melanoidines par voie methodique. Compte-rendu de I'Academie des Science, 154: 66-68. 1912. Brownlee M. Biochemistry and molecular cell biology of diabetic complications. Nature, 414: 813-820. 2001. Goldstein DE, Little RR, Lorenz RA, Malone JI, Nathan DM and Peterson CM. Tests of glycemia in diabetes. Diabetes Care, 27: 1761-1773. 2004. Kita K, Kawashima Y, Makino R, Namauo T, Ogawa S, Muraoka M and Fujimura S. Detection of two types of glycated tryptophan compounds in the plasma of chickens fed tryptophan excess diets. Journal of Poultry Science, 50: 138-142. 2013. Nagai R, Shirakawa J, Fujiwara Y, Ohno R, Moroishi N, Sakata N and Nagai M. Detection of AGEs as markers for carbohydrate metabolism and protein denaturation. Journal of Clinical Biochemistry and Nutrition, 55: 1-6. 2014. Ashraf JM, Ahmad S, Choi I, Ahmad N, Farhan M, Tatyana G and Shahab U. Recent advances in detection of AGEs: Immunochemical, bioanalytical and biochemical approaches. International Union of Biochemistry and Molecular Biology (IUBMB) Life, 67: 897-913. 2015. Takahashi K, Yodogawa S, Akiba Y and Tamura K. Effect of dietary protein concentration on responses to Escherichia coli endotoxin in broiler chickens. British Journal of Nutrition, 74: 173-182. 1995. Armbruster DA. Fructosamine: structure, analysis, and clinical usefulness. Clinical Chemistry, 33: 2153-2163, 1987. Klandorf H, Holt SB, McGowan JA, Pinchasov Y, Deyette D and Peterson RA. Hyperglycemia and non-enzymatic glycation of serum and tissue proteins in chickens. Comparative Biochemistry and Physiology. Part C, Pharmacology, Toxicology & Endocrinology, 110: 215-220. 1995. Iqbal M, Probert LL and Klandorf H. Effect of dietary aminoguanidine on tissue pentosidine and reproductive performance in broiler breeder hens. Poultry Science, 76: 1574-1579. 1997. Takahashi N and Kita K. Fructosyl-valine orally administrated to chickens is absorbed from gastrointestinal tract. Journal of Poultry Science, 53: 153-156. 2016. Makino R, Sugahara M and Kita K. Nutritional evaluation of glycated valine and tryptophan as a precursor for protein synthesis in chicken embryo myoblasts. Journal of Poultry Science, 52: 253-259. 2015b. Kita K, Matsunami S and Okumura J. Relationship of protein synthesis to mRNA levels in the liver of chicks under various nutritional conditions. Journal of Nutrition, 126: 1610-1617. 1996. Schoenheimer R. The Investigation of Intermediary Metabolism with the Aid of Heavy Hydrogen: Harvey Lecture, January 21, 1937. Bullen of New York Academy of Medicine, 13: 272-295. 1937. Koide K, Watanabe E, Toyomizu M and Ishibashi T. Effects of dietary protein sources on performance and plasma amino acid concentration of broilers. Japanese Journal of Poultry Science, 29: 368-377. 1992. Chao CY, Mong MC, Chan KC and Yin MC. Anti-glycative and anti-inflammatory effects of caffeic acid and ellagic acid in kidney of diabetic mice. Molecular Nutrition and Food Research, 54: 388-395. 2010 Iqbal M, Probert LL, Alhumadi NH and Klandorf H. Protein glycosylation and advanced glycosylated end products (AGEs) accumulation: an avian solution? The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences, 54: B171-B176. 1999. National Agricultue and Food Research Organization. Japanese Feeding Standard for Poultry. Japan Livestock Industry Association. 2011. Davis KE, Prasad C, Vijayagopal P, Juma S, Adams-Huet B and Imrhan V. Contribution of dietary advanced glycation end products (AGE) to circulating AGE: role of dietary fat. British Journal of Nutrition, 114: 1797-1806. 2015. Schoenheimer R and Rittenberg D. Deuterium as an indicator in the study of intermediary metabolism. Science, 82: 156-157. 1935. Trivelli LA, Ranney HM and Lai HT. Hemoglobin components in patients with diabetes mellitus. New England Journal of Medicine, 284: 353-357. 1971. SAS Institute. SAS/STAT® 13.1 User's Guide. SAS Institute. North Carolina. 2012. Delgado-Andrade C. Carboxymethyl-lysine: thirty years of investigation in the field of AGE formation. Food and Function, 7: 46-57. 2016. Ahmed MU, Thorpe SR and Baynes JW. Identification of Nε-(carboxymethyl) lysine as a degradation product of fructoselysine in glycated protein, Journal of Biological Chemistry, 261: 4889-4894. 1986. Makino R, Kawashima Y, Kajita Y, Namauo T, Ogawa S and Muraoka H. Glycated tryptophan in the plasma of chickens fed tryptophan-excess diets. Journal of Poultry Science, 52: 23-27. 2015a. Rittenberg D, Keston AS, Schoenheimer R and Foster GL. Deuterium as an indicator in the study of intermediary metabolism: XIII. Stability of hydrogen in amino acids. Journal of Biological Chemistry, 125: 1-12. 1938. 22 23 24 26 27 28 29 R Schoenheimer (31) 1936; 114 DA Armbruster (2) 1987; 33 (1) 1986; 261 CM Parrinello (25) 2014; 14 30 10 32 11 33 12 34 13 35 14 15 16 17 18 19 3 4 M Brownlee (5) 2001; 414 6 7 8 9 20 21 |
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Title | Influence of Varying Dietary Protein Levels on Glycation of Albumin, Tryptophan and Valine in the Plasma of Chickens |
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