Advanced glycation endproducts in horses with insulin-induced laminitis.
Abstract: Advanced glycation endproducts (AGEs) have been implicated in the pathogenesis of cancer, inflammatory conditions and diabetic complications. An interaction of AGEs with their receptor (RAGE) results in increased release of pro-inflammatory cytokines and reactive oxygen species (ROS), causing damage to susceptible tissues. Laminitis, a debilitating foot condition of horses, occurs in association with endocrine dysfunction and the potential involvement of AGE and RAGE in the pathogenesis of the disease has not been previously investigated. Glucose transport in lamellar tissue is thought to be largely insulin-independent (GLUT-1), which may make the lamellae susceptible to protein glycosylation and oxidative stress during periods of increased glucose metabolism. Archived lamellar tissue from horses with insulin-induced laminitis (n=4), normal control horses (n=4) and horses in the developmental stages (6h, 12h and 24h) of the disease (n=12) was assessed for AGE accumulation and the presence of oxidative protein damage and cellular lipid peroxidation. The equine-specific RAGE gene was identified in lamellar tissue, sequenced and is now available on GenBank. Lamellar glucose transporter (GLUT-1 and GLUT-4) gene expression was assessed quantitatively with qRT-PCR in laminitic and control horses and horses in the mid-developmental time-point (24 h) of the disease. Significant AGE accumulation had occurred by the onset of insulin-induced laminitis (48 h) but not at earlier time-points, or in control horses. Evidence of oxidative stress was not found in any group. The equine-specific RAGE gene was not expressed differently in treated and control animals, nor was the insulin-dependent glucose transporter GLUT-4. However, the glucose transporter GLUT-1 was increased in lamellar tissue in the developmental stages of insulin-induced laminitis compared to control horses and the insulin-independent nature of the lamellae may facilitate AGE formation. However, due to the lack of AGE accumulation during disease development and a failure to detect an increase in ROS or upregulation of RAGE, it appears unlikely that oxidative stress and protein glycosylation play a central role in the pathogenesis of acute, insulin-induced laminitis.
Copyright © 2011 Elsevier B.V. All rights reserved.
Publication Date: 2011-12-26 PubMed ID: 22240145DOI: 10.1016/j.vetimm.2011.12.016Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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This research examines whether advanced glycation endproducts (AGEs), substances implicated in such conditions as cancer and diabetes, contribute to laminitis (a painful foot disorder) in horses. The results indicate that although AGEs do accumulate in the affected tissue, they do not seem to play a central role in the development or progression of the condition.
Objective of the Research
- The research aimed at understanding the role of advanced glycation endproducts (AGEs), its receptor (RAGE), and glucose transport in the pathogenesis of insulin-induced laminitis in horses.
Approach of the Research
- Archived lamellar tissue from horses with (and without) insulin-induced laminitis were assessed for AGE accumulation and the presence of oxidative protein damage & cellular lipid oxidation.
- Gene expression for lamellar glucose transporters (GLUT-1 and GLUT-4) was quantitatively assessed using qRT-PCR.
Key Findings
- Significant AGE accumulation was observed only at the onset of the disease but not in earlier stages or control horses.
- There was no evidence of oxidative stress found in any group.
- The equine-specific RAGE gene and the insulin-dependent glucose transporter GLUT-4 was not expressed differently in treated and control horses.
- The glucose transporter GLUT-1 was found increased in lamellar tissue in the developmental stages of insulin-induced laminitis compared to control horses. This suggests the potential for susceptibility of lamellar tissue to protein glycosylation during periods of increased glucose metabolism.
Conclusion
- It was concluded that although AGE accumulation was observed in diseases, its role may not be central to the pathogenesis of insulin-induced laminitis in horses.
- No evidence was found linking oxidative stress and protein glycosylation to the progression of the disease. Therefore, they may not be significant contributing factors to the condition.
Cite This Article
APA
de Laat MA, Kyaw-Tanner MT, Sillence MN, McGowan CM, Pollitt CC.
(2011).
Advanced glycation endproducts in horses with insulin-induced laminitis.
Vet Immunol Immunopathol, 145(1-2), 395-401.
https://doi.org/10.1016/j.vetimm.2011.12.016 Publication
Researcher Affiliations
- Australian Equine Laminitis Research Unit, School of Veterinary Science, Faculty of Science, The University of Queensland, Gatton, Queensland 4343, Australia. m.delaat@uq.edu.au
MeSH Terms
- Animals
- Base Sequence
- Cloning, Molecular
- Excitatory Amino Acid Transporter 2 / analysis
- Foot Diseases / immunology
- Foot Diseases / metabolism
- Foot Diseases / veterinary
- Gene Expression Regulation / immunology
- Glucose Transporter Type 4 / analysis
- Glycation End Products, Advanced / analysis
- Hoof and Claw / chemistry
- Hoof and Claw / immunology
- Horse Diseases / immunology
- Horse Diseases / metabolism
- Horses / genetics
- Horses / immunology
- Horses / metabolism
- Lipid Peroxidation / immunology
- Molecular Sequence Data
- Oxidative Stress / immunology
- Polymerase Chain Reaction / veterinary
- Reactive Oxygen Species / analysis
- Receptor for Advanced Glycation End Products
- Receptors, Immunologic / analysis
- Receptors, Immunologic / genetics
Citations
This article has been cited 9 times.- Bronowicka-Szydełko A, Kotyra Ł, Lewandowski Ł, Gamian A, Kustrzeba-Wójcicka I. Role of Advanced Glycation End-Products and Other Ligands for AGE Receptors in Thyroid Cancer Progression.. J Clin Med 2021 Sep 10;10(18).
- Vercelli C, Tursi M, Miretti S, Giusto G, Gandini M, Re G, Valle E. Effect of sugar metabolite methylglyoxal on equine lamellar explants: An ex vivo model of laminitis.. PLoS One 2021;16(7):e0253840.
- Stokes SM, Burns TA, Watts MR, Bertin FR, Stefanovski D, Medina-Torres CE, Belknap JK, van Eps AW. Effect of digital hypothermia on lamellar inflammatory signaling in the euglycemic hyperinsulinemic clamp laminitis model.. J Vet Intern Med 2020 Jul;34(4):1606-1613.
- Durham AE, Frank N, McGowan CM, Menzies-Gow NJ, Roelfsema E, Vervuert I, Feige K, Fey K. ECEIM consensus statement on equine metabolic syndrome.. J Vet Intern Med 2019 Mar;33(2):335-349.
- Teodorowicz M, Hendriks WH, Wichers HJ, Savelkoul HFJ. Immunomodulation by Processed Animal Feed: The Role of Maillard Reaction Products and Advanced Glycation End-Products (AGEs).. Front Immunol 2018;9:2088.
- Marycz K, Kornicka K, Irwin-Houston JM, Weiss C. Combination of resveratrol and 5-azacytydine improves osteogenesis of metabolic syndrome mesenchymal stem cells.. J Cell Mol Med 2018 Oct;22(10):4771-4793.
- Reisinger N, Schaumberger S, Nagl V, Hessenberger S, Schatzmayr G. Concentration Dependent Influence of Lipopolysaccharides on Separation of Hoof Explants and Supernatant Lactic Acid Concentration in an Ex Vivo/In Vitro Laminitis Model.. PLoS One 2015;10(11):e0143754.
- de Laat MA, Gruntmeir KJ, Pollitt CC, McGowan CM, Sillence MN, Lacombe VA. Hyperinsulinemia Down-Regulates TLR4 Expression in the Mammalian Heart.. Front Endocrinol (Lausanne) 2014;5:120.
- Lacombe VA. Expression and regulation of facilitative glucose transporters in equine insulin-sensitive tissue: from physiology to pathology.. ISRN Vet Sci 2014;2014:409547.
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