Activation of RAGE induces elevated O2− generation by mononuclear phagocytes in diabetes

Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O2−) is the first molecule generated during the...

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Published inJournal of leukocyte biology Vol. 81; no. 2; pp. 520 - 527
Main Authors Ding, Yong, Kantarci, Alpdogan, Hasturk, Hatice, Trackman, Philip C., Malabanan, Alan, Van Dyke, Thomas E.
Format Journal Article
LanguageEnglish
Published England Society for Leukocyte Biology 01.02.2007
Subjects
Adult
advanced glycation end products
Diabetes Mellitus - immunology
Female
Glucose - pharmacology
Glycated Hemoglobin - drug effects
Glycated Hemoglobin - immunology
Glycation End Products, Advanced
Humans
hyperglycemia
Hyperglycemia - immunology
Male
Middle Aged
Monocytes - drug effects
Monocytes - metabolism
monocytes/macrophages
N-Formylmethionine Leucyl-Phenylalanine - pharmacology
Nerve Growth Factors - metabolism
oxidative stress
Receptor for Advanced Glycation End Products
Receptors, Immunologic - metabolism
S100 Calcium Binding Protein beta Subunit
S100 Proteins - metabolism
Structure-Activity Relationship
Superoxides - metabolism
Tetradecanoylphorbol Acetate - pharmacology
Zymosan - pharmacology
Online AccessGet full text
ISSN0741-5400
1938-3673
1938-3673
DOI10.1189/jlb.0406262

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Abstract Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O2−) is the first molecule generated during the respiratory burst of phagocytes by NADPH oxidase, and its generation by monocytes from 26 controls and 34 diabetic subjects was evaluated in this study. Under resting states or stimulation by PMA or opsonized zymosan, diabetic monocytes produce significantly more O2− than nondiabetic cells. The increased O2− generation was found to be correlated with glycemic control (glycated hemoglobin) of patients. To clarify the effects of hyperglycemia on O2− generation, normal human monocytes were treated with receptor for advanced glycation endproducts (RAGE) ligands (AGE protein and S100B) or high glucose media before stimulation. RAGE ligands and high glucose concentration increased O2− generation from human mononuclear phagocytes. RAGE ligands, specifically and potently, increased O2− generation from mononuclear phagocytes, and high‐glucose effects were associated with correspondingly increased osmotic pressure. Differentiated THP‐1 cells, from a human monocytic cell line, were used as a model of human monocytes to study the effects of S100B, the RAGE ligand. It was confirmed that RAGE is involved in the priming of O2− generation by S100B. This study demonstrates that RAGE ligands can contribute significantly to the hyper‐responsive phenotype of diabetic monocytes, which might be reversible by blocking the RAGE or controlling the presence of RAGE ligands by controlling hyperglycemia.
AbstractList Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O(2)(-)) is the first molecule generated during the respiratory burst of phagocytes by NADPH oxidase, and its generation by monocytes from 26 controls and 34 diabetic subjects was evaluated in this study. Under resting states or stimulation by PMA or opsonized zymosan, diabetic monocytes produce significantly more O(2)(-) than nondiabetic cells. The increased O(2)(-) generation was found to be correlated with glycemic control (glycated hemoglobin) of patients. To clarify the effects of hyperglycemia on O(2)(-) generation, normal human monocytes were treated with receptor for advanced glycation endproducts (RAGE) ligands (AGE protein and S100B) or high glucose media before stimulation. RAGE ligands and high glucose concentration increased O(2)(-) generation from human mononuclear phagocytes. RAGE ligands, specifically and potently, increased O(2)(-) generation from mononuclear phagocytes, and high-glucose effects were associated with correspondingly increased osmotic pressure. Differentiated THP-1 cells, from a human monocytic cell line, were used as a model of human monocytes to study the effects of S100B, the RAGE ligand. It was confirmed that RAGE is involved in the priming of O(2)(-) generation by S100B. This study demonstrates that RAGE ligands can contribute significantly to the hyper-responsive phenotype of diabetic monocytes, which might be reversible by blocking the RAGE or controlling the presence of RAGE ligands by controlling hyperglycemia.
Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O2-) is the first molecule generated during the respiratory burst of phagocytes by NADPH oxidase, and its generation by monocytes from 26 controls and 34 diabetic subjects was evaluated in this study. Under resting states or stimulation by PMA or opsonized zymosan, diabetic monocytes produce significantly more O2- than nondiabetic cells. The increased O2- generation was found to be correlated with glycemic control (glycated hemoglobin) of patients. To clarify the effects of hyperglycemia on O2- generation, normal human monocytes were treated with receptor for advanced glycation endproducts (RAGE) ligands (AGE protein and S100B) or high glucose media before stimulation. RAGE ligands and high glucose concentration increased O2- generation from human mononuclear phagocytes. RAGE ligands, specifically and potently, increased O2- generation from mononuclear phagocytes, and high-glucose effects were associated with correspondingly increased osmotic pressure. Differentiated THP-1 cells, from a human monocytic cell line, were used as a model of human monocytes to study the effects of S100B, the RAGE ligand. It was confirmed that RAGE is involved in the priming of O2- generation by S100B. This study demonstrates that RAGE ligands can contribute significantly to the hyper-responsive phenotype of diabetic monocytes, which might be reversible by blocking the RAGE or controlling the presence of RAGE ligands by controlling hyperglycemia.
Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O2−) is the first molecule generated during the respiratory burst of phagocytes by NADPH oxidase, and its generation by monocytes from 26 controls and 34 diabetic subjects was evaluated in this study. Under resting states or stimulation by PMA or opsonized zymosan, diabetic monocytes produce significantly more O2− than nondiabetic cells. The increased O2− generation was found to be correlated with glycemic control (glycated hemoglobin) of patients. To clarify the effects of hyperglycemia on O2− generation, normal human monocytes were treated with receptor for advanced glycation endproducts (RAGE) ligands (AGE protein and S100B) or high glucose media before stimulation. RAGE ligands and high glucose concentration increased O2− generation from human mononuclear phagocytes. RAGE ligands, specifically and potently, increased O2− generation from mononuclear phagocytes, and high-glucose effects were associated with correspondingly increased osmotic pressure. Differentiated THP-1 cells, from a human monocytic cell line, were used as a model of human monocytes to study the effects of S100B, the RAGE ligand. It was confirmed that RAGE is involved in the priming of O2− generation by S100B. This study demonstrates that RAGE ligands can contribute significantly to the hyper-responsive phenotype of diabetic monocytes, which might be reversible by blocking the RAGE or controlling the presence of RAGE ligands by controlling hyperglycemia.
Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O(2)(-)) is the first molecule generated during the respiratory burst of phagocytes by NADPH oxidase, and its generation by monocytes from 26 controls and 34 diabetic subjects was evaluated in this study. Under resting states or stimulation by PMA or opsonized zymosan, diabetic monocytes produce significantly more O(2)(-) than nondiabetic cells. The increased O(2)(-) generation was found to be correlated with glycemic control (glycated hemoglobin) of patients. To clarify the effects of hyperglycemia on O(2)(-) generation, normal human monocytes were treated with receptor for advanced glycation endproducts (RAGE) ligands (AGE protein and S100B) or high glucose media before stimulation. RAGE ligands and high glucose concentration increased O(2)(-) generation from human mononuclear phagocytes. RAGE ligands, specifically and potently, increased O(2)(-) generation from mononuclear phagocytes, and high-glucose effects were associated with correspondingly increased osmotic pressure. Differentiated THP-1 cells, from a human monocytic cell line, were used as a model of human monocytes to study the effects of S100B, the RAGE ligand. It was confirmed that RAGE is involved in the priming of O(2)(-) generation by S100B. This study demonstrates that RAGE ligands can contribute significantly to the hyper-responsive phenotype of diabetic monocytes, which might be reversible by blocking the RAGE or controlling the presence of RAGE ligands by controlling hyperglycemia.Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of diabetic monocytes to characterize the phenotype associated with poor diabetic control. Superoxide (O(2)(-)) is the first molecule generated during the respiratory burst of phagocytes by NADPH oxidase, and its generation by monocytes from 26 controls and 34 diabetic subjects was evaluated in this study. Under resting states or stimulation by PMA or opsonized zymosan, diabetic monocytes produce significantly more O(2)(-) than nondiabetic cells. The increased O(2)(-) generation was found to be correlated with glycemic control (glycated hemoglobin) of patients. To clarify the effects of hyperglycemia on O(2)(-) generation, normal human monocytes were treated with receptor for advanced glycation endproducts (RAGE) ligands (AGE protein and S100B) or high glucose media before stimulation. RAGE ligands and high glucose concentration increased O(2)(-) generation from human mononuclear phagocytes. RAGE ligands, specifically and potently, increased O(2)(-) generation from mononuclear phagocytes, and high-glucose effects were associated with correspondingly increased osmotic pressure. Differentiated THP-1 cells, from a human monocytic cell line, were used as a model of human monocytes to study the effects of S100B, the RAGE ligand. It was confirmed that RAGE is involved in the priming of O(2)(-) generation by S100B. This study demonstrates that RAGE ligands can contribute significantly to the hyper-responsive phenotype of diabetic monocytes, which might be reversible by blocking the RAGE or controlling the presence of RAGE ligands by controlling hyperglycemia.
Author Alan Malabanan
Philip C. Trackman
Thomas E. Van Dyke
Hatice Hasturk
Alpdogan Kantarci
Yong Ding
AuthorAffiliation Department of Biochemistry, School of Medicine, Boston University, Boston, Massachusetts, USA
Department of Medicine, School of Medicine, Boston University, Boston, Massachusetts, USA
Goldman School of Dental Medicine, Department of Periodontology and Oral Biology, School of Medicine, Boston University, Boston, Massachusetts, USA
AuthorAffiliation_xml – name: Department of Biochemistry, School of Medicine, Boston University, Boston, Massachusetts, USA
– name: Goldman School of Dental Medicine, Department of Periodontology and Oral Biology, School of Medicine, Boston University, Boston, Massachusetts, USA
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  givenname: Yong
  surname: Ding
  fullname: Ding, Yong
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  givenname: Alpdogan
  surname: Kantarci
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  givenname: Hatice
  surname: Hasturk
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  givenname: Philip C.
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/17095613$$D View this record in MEDLINE/PubMed
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Snippet Oxidative stress has been found to play a role in the pathogenesis of diabetic complications. The aim of this study was to define the oxidative burst of...
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StartPage 520
SubjectTerms Adult
advanced glycation end products
Diabetes Mellitus - immunology
Female
Glucose - pharmacology
Glycated Hemoglobin - drug effects
Glycated Hemoglobin - immunology
Glycation End Products, Advanced
Humans
hyperglycemia
Hyperglycemia - immunology
Male
Middle Aged
Monocytes - drug effects
Monocytes - metabolism
monocytes/macrophages
N-Formylmethionine Leucyl-Phenylalanine - pharmacology
Nerve Growth Factors - metabolism
oxidative stress
Receptor for Advanced Glycation End Products
Receptors, Immunologic - metabolism
S100 Calcium Binding Protein beta Subunit
S100 Proteins - metabolism
Structure-Activity Relationship
Superoxides - metabolism
Tetradecanoylphorbol Acetate - pharmacology
Zymosan - pharmacology
Title Activation of RAGE induces elevated O2− generation by mononuclear phagocytes in diabetes
URI http://www.jleukbio.org/content/81/2/520.abstract
https://onlinelibrary.wiley.com/doi/abs/10.1189%2Fjlb.0406262
https://www.ncbi.nlm.nih.gov/pubmed/17095613
https://www.proquest.com/docview/68948175
https://pubmed.ncbi.nlm.nih.gov/PMC2533418
http://doi.org/10.1189/jlb.0406262
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