BACKGROUND: Equine insulin dysregulation (ID) is a common and poorly understood disorder that increases the risk of laminitis. Recent data show that the condition may be associated with alteration of the enteroinsular axis and enhanced glucose bioavailability. Upregulation of glucagon-like peptide-2 (GLP-2), an intestinotrophic peptide, leads to enhanced nutrient uptake and metabolic dysfunction in other species. OBJECTIVES: The study aimed to 1) determine whether GLP-2 is differentially expressed in insulin-dysregulated ponies, compared with healthy ponies, and 2) confirm intestinal expression of the GLP-2 receptor in horses (eGLP-2R). STUDY DESIGN: Cohort study. METHODS: Fasting and post-prandial GLP-2 concentrations were measured in archived plasma samples obtained from 25 mixed-breed ponies during two feeding studies. Measurements were undertaken with an ELISA that was validated for equine use as part of the current study. Ponies were designated as healthy or insulin-dysregulated based on an oral glucose test, and the results were compared between groups. The gene expression of the eGLP-2R was determined with polymerase chain reaction. RESULTS: Basal, fasted plasma GLP-2 concentrations were higher in ponies with ID, compared with healthy ponies. Grazing increased GLP-2 in healthy, but not in insulin-dysregulated, ponies. The eGLP-2R gene was expressed in the small intestine and pancreas. MAIN LIMITATIONS: The study was performed with a relatively small sample size. The specificity of the GLP-2 assay could not be determined due to the lack of equine-specific assay standards. CONCLUSIONS: This study has demonstrated that GLP-2 may be important in the pathogenesis of equine ID and suggests that the eGLP-2R may be a novel therapeutic target for the treatment of equine ID.
BACKGROUND: Equine insulin dysregulation (ID) is a common and poorly understood disorder that increases the risk of laminitis. Recent data show that the condition may be associated with alteration of the enteroinsular axis and enhanced glucose bioavailability. Upregulation of glucagon-like peptide-2 (GLP-2), an intestinotrophic peptide, leads to enhanced nutrient uptake and metabolic dysfunction in other species. OBJECTIVES: The study aimed to 1) determine whether GLP-2 is differentially expressed in insulin-dysregulated ponies, compared with healthy ponies, and 2) confirm intestinal expression of the GLP-2 receptor in horses (eGLP-2R). STUDY DESIGN: Cohort study. METHODS: Fasting and post-prandial GLP-2 concentrations were measured in archived plasma samples obtained from 25 mixed-breed ponies during two feeding studies. Measurements were undertaken with an ELISA that was validated for equine use as part of the current study. Ponies were designated as healthy or insulin-dysregulated based on an oral glucose test, and the results were compared between groups. The gene expression of the eGLP-2R was determined with polymerase chain reaction. RESULTS: Basal, fasted plasma GLP-2 concentrations were higher in ponies with ID, compared with healthy ponies. Grazing increased GLP-2 in healthy, but not in insulin-dysregulated, ponies. The eGLP-2R gene was expressed in the small intestine and pancreas. MAIN LIMITATIONS: The study was performed with a relatively small sample size. The specificity of the GLP-2 assay could not be determined due to the lack of equine-specific assay standards. CONCLUSIONS: This study has demonstrated that GLP-2 may be important in the pathogenesis of equine ID and suggests that the eGLP-2R may be a novel therapeutic target for the treatment of equine ID.
Authors: Andy E Durham; Nicholas Frank; Cathy M McGowan; Nicola J Menzies-Gow; Ellen Roelfsema; Ingrid Vervuert; Karsten Feige; Kerstin Fey Journal: J Vet Intern Med Date: 2019-02-06 Impact factor: 3.333