Immunochemical detection of advanced glycosylation end products in vivo

Reducing sugars react with protein amino groups to form a diverse group of protein-bound moieties with fluorescent and cross-linking properties. These compounds, called advanced glycosylation end products (AGEs), have been implicated in the structural and functional alterations of proteins that occu...

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Published in	The Journal of biological chemistry Vol. 267; no. 8; pp. 5133 - 5138
Main Authors	MAKITA, Z, VLASSARA, H, CERAMI, A, BUCALA, R
Format	Journal Article
Language	English
Published	Bethesda, MD American Society for Biochemistry and Molecular Biology 15.03.1992
Subjects	Adolescent advanced glycosylation end products Analytical, structural and metabolic biochemistry Animals Binding, Competitive Biological and medical sciences Collagen - analogs & derivatives Collagen - analysis Cross Reactions detection diabetes mellitus Diabetes Mellitus, Experimental - blood Diabetes Mellitus, Type 1 - blood Diabetes Mellitus, Type 2 - blood Diabetic Nephropathies - blood Diabetic Nephropathies - therapy Enzyme-Linked Immunosorbent Assay Epitopes - analysis Fluorescent Antibody Technique Fundamental and applied biological sciences. Psychology Glycated Hemoglobin A - analysis Glycoproteins - analysis Glycoproteins - immunology Glycosylation Humans Immune Sera Kidney Failure, Chronic - blood Kidney Failure, Chronic - therapy Middle Aged Miscellaneous Proteins Rats Rats, Inbred Lew Reference Values Renal Dialysis Proteins Vertebrata Mammalia Antigenic determinant Diabetes mellitus Ageing Glycosylation Glucose ELISA assay
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Abstract	Reducing sugars react with protein amino groups to form a diverse group of protein-bound moieties with fluorescent and cross-linking properties. These compounds, called advanced glycosylation end products (AGEs), have been implicated in the structural and functional alterations of proteins that occur during aging and long-term diabetes. Although several AGEs have been identified on the basis of de novo synthesis and tissue isolation procedures, the measurement of AGE compounds in vivo has remained difficult. As an approach to the study of AGE formation in vivo, we prepared polyclonal antiserum to an AGE epitope(s) which forms in vitro after incubation of glucose with ribonuclease (RNase). This antiserum proved suitable for the detection of AGEs which form in vivo. Both diabetic tissue and serum known to contain elevated levels of AGEs readily competed for antibody binding. Cross-reactivity studies revealed the presence of a common AGE epitope(s) which forms after the incubation of diverse proteins with glucose. Cross-reactive epitopes also formed with glucose 6-phosphate or fructose. These data suggest that tissue AGEs which form in vivo appear to contain a common immunological epitope which cross-reacts with AGEs prepared in vitro, supporting the concept that immunologically similar AGE structures form from the incubation of sugars with different proteins (Horiuchi, S., Araki, N., and Morino, Y. (1991) J. Biol. Chem. 266, 7329-7332). None of the known AGEs, such as 4-furanyl-2-furoyl-1H-imidazole, 1-alkyl-2-formyl-3,4-diglycosylpyrrole, pyrraline, carboxymethyllysine, or pentosidine, were found to compete for binding to anti-AGE antibody. These data further suggest that the dominant AGE epitope which forms from the reaction of glucose with proteins under native conditions is immunologically distinct from the structurally defined AGEs described to date.
AbstractList	Reducing sugars react with protein amino groups to form a diverse group of protein-bound moieties with fluorescent and cross-linking properties. These compounds, called advanced glycosylation end products (AGEs), have been implicated in the structural and functional alterations of proteins that occur during aging and long-term diabetes. Although several AGEs have been identified on the basis of de novo synthesis and tissue isolation procedures, the measurement of AGE compounds in vivo has remained difficult. As an approach to the study of AGE formation in vivo, we prepared polyclonal antiserum to an AGE epitope(s) which forms in vitro after incubation of glucose with ribonuclease (RNase). This antiserum proved suitable for the detection of AGEs which form in vivo. Both diabetic tissue and serum known to contain elevated levels of AGEs readily competed for antibody binding. Cross-reactivity studies revealed the presence of a common AGE epitope(s) which forms after the incubation of diverse proteins with glucose. Cross-reactive epitopes also formed with glucose 6-phosphate or fructose. These data suggest that tissue AGEs which form in vivo appear to contain a common immunological epitope which cross-reacts with AGEs prepared in vitro, supporting the concept that immunologically similar AGE structures form from the incubation of sugars with different proteins (Horiuchi, S., Araki, N., and Morino, Y. (1991) J. Biol. Chem. 266, 7329-7332). None of the known AGEs, such as 4-furanyl-2-furoyl-1H-imidazole, 1-alkyl-2-formyl-3,4-diglycosylpyrrole, pyrraline, carboxymethyllysine, or pentosidine, were found to compete for binding to anti-AGE antibody. These data further suggest that the dominant AGE epitope which forms from the reaction of glucose with proteins under native conditions is immunologically distinct from the structurally defined AGEs described to date. Reducing sugars react with protein amino groups to form a diverse group of protein-bound moieties with fluorescent and cross-linking properties. These compounds, called advanced glycosylation end products (AGEs), have been implicated in the structural and functional alterations of proteins that occur during aging and long-term diabetes. Although several AGEs have been identified on the basis of de novo synthesis and tissue isolation procedures, the measurement of AGE compounds in vivo has remained difficult. As an approach to the study of AGE formation in vivo, we prepared polyclonal antiserum to an AGE epitope(s) which forms in vitro after incubation of glucose with ribonuclease (RNase). This antiserum proved suitable for the detection of AGEs which form in vivo. Both diabetic tissue and serum known to contain elevated levels of AGEs readily competed for antibody binding. Cross-reactivity studies revealed the presence of a common AGE epitope(s) which forms after the incubation of diverse proteins with glucose. Cross-reactive epitopes also formed with glucose 6-phosphate or fructose. These data suggest that tissue AGEs which form in vivo appear to contain a common immunological epitope which cross-reacts with AGEs prepared in vitro, supporting the concept that immunologically similar AGE structures form from the incubation of sugars with different proteins (Horiuchi, S., Araki, N., and Morino, Y. (1991) J. Biol. Chem. 266, 7329-7332). None of the known AGEs, such as 4-furanyl-2-furoyl-1H-imidazole, 1-alkyl-2-formyl-3,4-diglycosylpyrrole, pyrraline, carboxymethyllysine, or pentosidine, were found to compete for binding to anti-AGE antibody. These data further suggest that the dominant AGE epitope which forms from the reaction of glucose with proteins under native conditions is immunologically distinct from the structurally defined AGEs described to date. Advanced glycosylation end products (AGEs) have been implicated in the structural and functional alterations of proteins that occur during aging and long-term diabetes. As an approach to the study of AGE formation in vivo, we prepared polyclonal antiserum to an AGE epitope(s) which forms in vitro after incubation of glucose with ribonuclease (RNase). The data suggest that tissue AGEs which form in vivo appear to contain a common immunological epitope which cross-reacts with AGEs prepared in vitro.
Author	H Vlassara A Cerami R Bucala Z Makita
Author_xml	– sequence: 1 givenname: Z surname: MAKITA fullname: MAKITA, Z organization: Rockefeller univ., lab. medical biochemistry, New York NY 10021, United States – sequence: 2 givenname: H surname: VLASSARA fullname: VLASSARA, H organization: Rockefeller univ., lab. medical biochemistry, New York NY 10021, United States – sequence: 3 givenname: A surname: CERAMI fullname: CERAMI, A organization: Rockefeller univ., lab. medical biochemistry, New York NY 10021, United States – sequence: 4 givenname: R surname: BUCALA fullname: BUCALA, R organization: Rockefeller univ., lab. medical biochemistry, New York NY 10021, United States
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Snippet	Reducing sugars react with protein amino groups to form a diverse group of protein-bound moieties with fluorescent and cross-linking properties. These... Reducing sugars react with protein amino groups to form a diverse group of protein-bound moieties with fluorescent and cross-linking properties. These... Advanced glycosylation end products (AGEs) have been implicated in the structural and functional alterations of proteins that occur during aging and long-term...
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SubjectTerms	Adolescent advanced glycosylation end products Analytical, structural and metabolic biochemistry Animals Binding, Competitive Biological and medical sciences Collagen - analogs & derivatives Collagen - analysis Cross Reactions detection diabetes mellitus Diabetes Mellitus, Experimental - blood Diabetes Mellitus, Type 1 - blood Diabetes Mellitus, Type 2 - blood Diabetic Nephropathies - blood Diabetic Nephropathies - therapy Enzyme-Linked Immunosorbent Assay Epitopes - analysis Fluorescent Antibody Technique Fundamental and applied biological sciences. Psychology Glycated Hemoglobin A - analysis Glycoproteins - analysis Glycoproteins - immunology Glycosylation Humans Immune Sera Kidney Failure, Chronic - blood Kidney Failure, Chronic - therapy Middle Aged Miscellaneous Proteins Rats Rats, Inbred Lew Reference Values Renal Dialysis
Title	Immunochemical detection of advanced glycosylation end products in vivo
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