Metabolic and Skeletal Characterization of the KK/Ay Mouse Model – a Polygenic Mutation Model of Obese Type 2 Diabetes

dc.contributor.authorChowdhury, Nusaiba N.
dc.contributor.authorSurowiec, Rachel K.
dc.contributor.authorKohler, Rachel K.
dc.contributor.authorReul, Olivia N.
dc.contributor.authorSegvich, Dyann M.
dc.contributor.authorWallace, Joseph M.
dc.contributor.departmentRadiology and Imaging Sciences, School of Medicine
dc.date.accessioned2024-08-26T15:26:28Z
dc.date.available2024-08-26T15:26:28Z
dc.date.issued2024
dc.description.abstractType 2 diabetes (T2D) increases fracture incidence and fracture-related mortality rates (KK.Cg-Ay/J. The Jackson Laboratory; Available from: https://www.jax.org/strain/002468 ). While numerous mouse models for T2D exist, few effectively stimulate persistent hyperglycemia in both sexes, and even fewer are suitable for bone studies. Commonly used models like db/db and ob/ob have altered leptin pathways, confounding bone-related findings since leptin regulates bone properties (Fajardo et al. in Journal of Bone and Mineral Research 29(5): 1025-1040, 2014). The Yellow Kuo Kondo (KK/Ay) mouse, a polygenic mutation model of T2D, is able to produce a consistent diabetic state in both sexes and addresses the lack of a suitable model of T2D for bone studies. The diabetic state of KK/Ay stems from a mutation in the agouti gene, responsible for coat color in mice. This mutation induces ectopic gene expression across various tissue types, resulting in diabetic mice with yellow fur coats (Moussa and Claycombe in Obesity Research 7(5): 506-514, 1999). Male and female KK/Ay mice exhibited persistent hyperglycemia, defining them as diabetic with blood glucose (BG) levels consistently exceeding 300 mg/dL. Notably, male control mice in this study were also diabetic, presenting a significant limitation. Nevertheless, male and female KK/Ay mice showed significantly elevated BG levels, HbA1c, and serum insulin concentration when compared to the non-diabetic female control mice. Early stages of T2D are characterized by hyperglycemia and hyperinsulinemia resulting from cellular insulin resistance, whereas later stages may feature hypoinsulinemia due to β-cell apoptosis (Banday et al. Avicenna Journal of Medicine 10(04): 174-188, 2020 and Klein et al. Cell Metabolism 34(1): 11-20, 2022). The observed hyperglycemia, hyperinsulinemia, and the absence of differences in β-cell mass suggest that KK/Ay mice in this study are modeling the earlier stages of T2D. While compromised bone microarchitecture was observed in this study, older KK/Ay mice, representing more advanced stages of T2D, might exhibit more pronounced skeletal manifestations. Compared to the control group, the femora of KK/Ay mice had higher cortical area and cortical thickness, and improved trabecular properties which would typically be indicative of greater bone strength. However, KK/Ay mice displayed lower cortical tissue mineral density in both sexes and increased cortical porosity in females. Fracture instability toughness of the femora was lower in KK/Ay mice overall compared to controls. These findings indicate that decreased mechanical integrity noted in the femora of KK/Ay mice was likely due to overall bone quality being compromised.
dc.eprint.versionAuthor's manuscript
dc.identifier.citationChowdhury NN, Surowiec RK, Kohler RK, Reul ON, Segvich DM, Wallace JM. Metabolic and Skeletal Characterization of the KK/Ay Mouse Model-A Polygenic Mutation Model of Obese Type 2 Diabetes. Calcif Tissue Int. 2024;114(6):638-649. doi:10.1007/s00223-024-01216-1
dc.identifier.urihttps://hdl.handle.net/1805/42945
dc.language.isoen_US
dc.publisherSpringer
dc.relation.isversionof10.1007/s00223-024-01216-1
dc.relation.journalCalcified Tissue International
dc.rightsPublisher Policy
dc.sourcePMC
dc.subjectDiabetes mellitus
dc.subjectDiabetic mouse model
dc.subjectFracture toughness
dc.subjectHbA1c
dc.subjectMechanical testing
dc.subjectMicrocomputed tomography (microCT)
dc.titleMetabolic and Skeletal Characterization of the KK/Ay Mouse Model – a Polygenic Mutation Model of Obese Type 2 Diabetes
dc.typeArticle
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