Abstract
Diabetes mellitus is an increasingly severe chronic metabolic disease that is occurring at an alarming rate worldwide. Various diabetic models, including non-obese diabetic mice and chemically induced diabetic models, are used to characterize and explore the mechanism of the disease’s pathophysiology, in hopes of detecting and identifying novel potential therapeutic targets. However, this is accompanied by disadvantages, such as specific conditions for maintaining the incidence, nonstable hyperglycemia induction, and potential toxicity to other organs. Murine MAFA and MAFB, two closely-linked islet-enriched transcription factors, play fundamental roles in glucose sensing and insulin secretion, and maintenance of pancreatic β-cell, respectively, which are highly homologous to human protein orthologs. Herein, to induce the diabetes mellitus model at a specific time point, we generated Pdx1-dependent Mafb-deletion mice under Mafa knockout condition (A0BΔpanc), via tamoxifen-inducible Cre-loxP system. After 16 weeks, metabolic phenotypes were characterized by intraperitoneal glucose tolerance test (IPGTT), urine glucose test, and metabolic parameters analysis. The results indicated that male A0BΔpanc mice had obvious impaired glucose tolerance, and high urine glucose level. Furthermore, obvious renal lesions, impaired islet structure and decreased proportion of insulin positive cells were observed. Collectively, our results indicate that A0BΔpanc mice can be an efficient inducible model for diabetes research.
Highlights
Diabetes mellitus (DM), a complex and chronic metabolic disease, has been one of the most critical public health problems over the last century, because of its high mortality and morbidity [1,2]
In considering the unique roles of MAFA and MAFB in β-cell development and maturation, here, we aimed to develop a more efficient and inducible DM model
The Cre-loxP system is widely used in monitoring the target gene expression temporally and spatially
Summary
Diabetes mellitus (DM), a complex and chronic metabolic disease, has been one of the most critical public health problems over the last century, because of its high mortality and morbidity [1,2]. In our previous study [13], we found that the mice that had a specific Mafb deletion in pancreatic β-cells under Mafa-deficient conditions were vulnerable to developing diabetes with high-fat diet (HFD) feeding. This indicates that the deletion of both Mafa and Mafb are potent targets for the induction of DM. The emergence of animal models modified by the tamoxifen-inducible Cre-loxP recombination system have provided cutting-edge insights into gene function It prevents pre-adult lethality caused by prenatal or neonatal gene manipulation, to induce gene modification at desired time points. In considering the unique roles of MAFA and MAFB in β-cell development and maturation, here, we aimed to develop a more efficient and inducible DM model
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