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KMID : 1161520190230010042
Animal Cells and Systems
2019 Volume.23 No. 1 p.42 ~ p.49
Potential use of transgenic domestic pigs expressing recombinant human erythropoietin in diabetes translation research
Baek Sun-Young

Chung Hak-Jae
Kim Kyung-Woon
Cho Kyu-Ho
Choi In-Chul
Lee Hoon-Taek
Abstract
Recently, diabetes mellitus (DM) has shown rapid global increases with about five million deaths annually. Animal models are imperative to understand disease mechanisms and develop diagnostic, preventive, and therapeutic interventions in translational research. Rodent and mini-pig models have been established and widely used for DM research. However, domestic pig models are limited in spite of advantages such as pharmacokinetic and physiopathological availability. This study examines the potential use of domestic pigs expressing recombinant human erythropoietin (rhEPO) as disease and therapeutic response models for DM. We previously generated transgenic pigs (n?=?16, EPO Tg) in which rhEPO was expressed and circulated in all organs. Thirty-two pigs, including 16 controls, were fed high fat (HF) diets for 42 weeks. Subsequently, blood samples for chemical and metabolic analysis were collected after fasting for 24?h and glucose loading for oral glucose tolerance tests (OGTTs). We found increased activation of the PI3?K/Akt signaling pathway under hypoxic conditions after rhEPO treatment, and HF diet-inducible-obesity in the EPO Tg and control pigs. OGTTs showed lower fasting glucose levels in the EPO Tg pigs than in controls before and after the HF diet, suggesting that rhEPO may affect glucose concentrations. Insulin and C-peptide concentrations responded slowly to glucose administration and returned to initial levels after 2?h. The blood test results suggest that EPO might affect metabolic and chemical components such as glucose, high-density lipoprotein, glucagon, triglyceride, and free fatty acid. Our findings support the use of rhEPO transgenic domestic pigs as model animals for translational DM research.
KEYWORD
Diabetes mellitus, pig model, glucose, insulin, Erythropoietin
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