Genotype-dependent Metabolic Responses to Semi-Purified High-Sucrose High-Fat Diets in the TALLYHO/Jng vs. C57BL/6 Mouse during the Development of Obesity and Type 2 Diabetes

Parkman, Jacaline; Mao, Xia; Dillon, Kristy; Gudivada, Akhil; Moustaid‐Moussa, Naima; Saxton, Arnold M.; Kim, J. H.

doi:10.1055/s-0042-109605

Cited by 15 publications

(4 citation statements)

References 30 publications

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“…Energy expenditure determined by heat production normalized with body weight (kcal/kg/hr) was lower in B6.TH-Chr1-128Mb congenic mice than B6 mice. These findings are consistent with the characterization of parental TH strain (Parkman et al 2016). …”

Section: Discussionsupporting

confidence: 92%

Congenic mice demonstrate the presence of QTLs conferring obesity and hypercholesterolemia on chromosome 1 in the TALLYHO mouse

et al. 2017

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The TALLYHO (TH) mouse presents a metabolic syndrome of obesity, type 2 diabetes, and hyperlipidemia. Highly significant quantitative trait loci (QTLs) linked to adiposity (proximal) and hypercholesterolemia (distal) were previously identified on chromosome (Chr) 1 in a genome-wide scan of F2 mice from C57BL/6J (B6)×TH. In this study we generated congenic mouse strains that carry the Chr 1 QTLs derived from TH on a B6 background; B6.TH-Chr1-128Mb (128 Mb in size) and B6.TH-Chr1-92Mb (92 Mb in size, proximally overlapping). We characterized these congenic mice on chow and high fat (HF) diets. On chow, B6.TH-Chr1-128Mb congenic mice exhibited a slightly larger body fat mass compared with B6.TH-Chr1-92Mb congenic and B6 mice, while body fat mass between B6.TH-Chr1-92Mb congenic and B6 mice was comparable. Plasma total cholesterol levels were significantly higher in B6.TH-Chr1-128Mb congenics compared to B6.TH-Chr1-92Mb congenic and B6 mice. Again, there was no difference in plasma total cholesterol levels between B6.TH-Chr1-92Mb congenic and B6 mice. All animals gained more body fat and exhibited higher plasma total cholesterol levels when fed HF diets than fed chow, but these increases were greater in B6.TH-Chr1-128Mb congenics than in B6.TH-Chr1-92Mb congenic and B6 mice. These results confirmed the effect of the 128Mb TH segment from Chr 1 on body fat and plasma cholesterol values and showed that the distal segment of Chr 1 from TH is necessary to cause both phenotypes. Through bioinformatic approaches we generated a list of potential candidate genes within the distal region of Chr 1 and tested Ifi202b and Apoa2. We conclude that Chr 1 QTLs largely confer obesity and hypercholesterolemia in TH mice and can be promising targets for identifying susceptibility genes. Congenic mouse strains will be a valuable resource for gene identification.

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Section: Discussionsupporting

confidence: 92%

Congenic mice demonstrate the presence of QTLs conferring obesity and hypercholesterolemia on chromosome 1 in the TALLYHO mouse

et al. 2017

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“…Usually mice models with severe diabetes, develop such condition early in life, thus, the important component of aging is missing (7)(8)(9). Conversely, in models of DM induced by the consumption of energy dense diets lead to a chronic condition that can be sustained until late life; however, under these circumstances, metabolic abnormalities are generally mild (34)(35)(36).…”

Section: Discussionmentioning

confidence: 99%

“…Usually mice models with severe diabetes, develop such condition early in life, thus, the important component of aging is missing (7–9). Previous models of DM induced by the consumption of energy dense diets showed chronic conditions that can be sustained until late life; however, metabolic abnormalities are generally mild (34–36). Here, we described a mouse model that enhances metabolic severity (pharmacological-induced DM) to the aging process occurring on a long-term HFD feeding.…”

Section: Discussionmentioning

confidence: 99%

A Diabetic Mice Model For Studying Skin Wound Healing

Jara

Nogueira

Morari

et al. 2022

Preprint

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Advances in wound treatment depend on the availability of animal models that reflect key aspects of human wound healing physiology. To this date, the accepted mouse models do not reflect defects in the healing process for chronic wounds that are associated with type two diabetic skin ulcers. The long term, systemic physiologic stress that occurs in middle aged or older type 2 diabetic patients is difficult to simulate in preclinical animal model. We have strived to incorporate the essential elements of this stress in a manageable mouse model: long term metabolic stress from obesity to include the effects of middle age and thereafter onset of diabetes. At six-weeks age, male C57BL/6 mice were separated into groups fed a Chow and High-Fat Diet for 0.5, 3, and 6 months. Treatment groups included long term, obesity stressed mice with induction of diabetes by streptozotocin at 5 months, and further physiologic evaluation at 8 months old. We show that this model results in a severe metabolic phenotype with insulin resistance and glucose intolerance associated with obesity and, more importantly, skin changes. The phenotype of this older age mouse model included a transcriptional signature of gene expression in skin that overlapped that observed with elderly patients who develop diabetic foot ulcers. This unique old age phenotype result contrasts with current non-obesity stressed mice models with induced diabetes at 4 months or younger which do not reflect the pathologic type 2 human phenotype.

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“…Usually mice models with severe diabetes, develop such condition early in life, thus, the important component of aging is missing [12][13][14]. Conversely, in models of DM induced by the consumption of energy dense diets lead to a chronic condition that can be sustained until late life; however, under these circumstances, metabolic abnormalities are generally mild [41][42][43].…”

Section: Plos Onementioning

confidence: 99%

An older diabetes-induced mice model for studying skin wound healing

et al. 2023

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Advances in wound treatment depend on the availability of animal models that reflect key aspects of human wound healing physiology. To this date, the accepted mouse models do not reflect defects in the healing process for chronic wounds that are associated with type two diabetic skin ulcers. The long term, systemic physiologic stress that occurs in middle aged or older Type 2 diabetes patients is difficult to simulate in preclinical animal model. We have strived to incorporate the essential elements of this stress in a manageable mouse model: long term metabolic stress from obesity to include the effects of middle age and thereafter onset of diabetes. At six-weeks age, male C57BL/6 mice were separated into groups fed a chow and High-Fat Diet for 0.5, 3, and 6 months. Treatment groups included long term, obesity stressed mice with induction of diabetes by streptozotocin at 5 months, and further physiologic evaluation at 8 months old. We show that this model results in a severe metabolic phenotype with insulin resistance and glucose intolerance associated with obesity and, more importantly, skin changes. The phenotype of this older age mouse model included a transcriptional signature of gene expression in skin that overlapped that observed with elderly patients who develop diabetic foot ulcers. We believe this unique old age phenotype contrasts with current mice models with induced diabetes.

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Genotype-dependent Metabolic Responses to Semi-Purified High-Sucrose High-Fat Diets in the TALLYHO/Jng vs. C57BL/6 Mouse during the Development of Obesity and Type 2 Diabetes

Cited by 15 publications

References 30 publications

Congenic mice demonstrate the presence of QTLs conferring obesity and hypercholesterolemia on chromosome 1 in the TALLYHO mouse

Congenic mice demonstrate the presence of QTLs conferring obesity and hypercholesterolemia on chromosome 1 in the TALLYHO mouse

A Diabetic Mice Model For Studying Skin Wound Healing

An older diabetes-induced mice model for studying skin wound healing

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