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Consumption of a high-fat diet (HFD) in experimental animal models initiates a series of molecular events and outcomes, including insulin resistance and obesity, that mimic the metabolic syndrome in humans. The relationship among, and order of, the molecular events linking a diet high in fat to pathologies is often unclear. In the present study, we provide several novel insights into the relationship between a HFD and AMP-activated protein kinase (AMPK), a key regulator of cellular metabolism and whole-body energy balance. HFD substantially decreased the activities of both iso-forms of AMPK in white adipose tissue, heart, and liver. These decreases in AMPK activity occurred in the absence of decreased AMPK transcription, systemic inflammation, hyperglycemia, or elevated levels of free fatty acids. The HFD-induced decrease in AMPK activity was associated with systemic insulin resistance and hyperleptinemia. In blood, >98 % of AMPK activity was localized in agranulocytes as the α1 isoform. In contrast to the solid tissues studied, AMPK activities were not altered by HFD in granulocytes or agranulocytes. We conclude that HFD-induced obesity causes a broad, non-tissue, or isoform-specific lowering of AMPK activity. Given the central position AMPK plays in whole-body energy balance, this decreased AMPK activity may play a previously unrecognized role in obesity and its associated pathologies.

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Cardiac Fibroblast-Derived 3D Extracellular Matrix Seeded with Mesenchymal Stem Cells as a Novel Device to Transfer Cells to the Ischemic Myocardium

Schmuck

Mulligan

Ertel

et al. 2013

Cardiovasc Eng Tech

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Purpose Demonstrate a novel manufacturing method to generate extracellular matrix scaffolds from cardiac fibroblasts (CF-ECM) as a therapeutic mesenchymal stem cell-transfer device. Materials and Methods Rat CF were cultured at high-density (~1.6×105/cm2) for 10–14 days. Cell sheets were removed from the culture dish by incubation with EDTA and decellularized with water and peracetic acid. CF-ECM was characterized by mass spectrometry, immunofluorescence and scanning electron microscopy. CF-ECM seeded with human embryonic stem cell derived mesenchymal stromal cells (hEMSCs) were transferred into a mouse myocardial infarction model. 48 hours later, mouse hearts were excised and examined for CF-ECM scaffold retention and cell transfer. Results CF-ECM scaffolds are composed of fibronectin (82%), collagens type I (13%), type III (3.4%), type V (0.2%), type II (0.1%) elastin (1.3%) and 18 non-structural bioactive molecules. Scaffolds remained intact on the mouse heart for 48 hours without the use of sutures or glue. Identified hEMSCs were distributed from the epicardium to the endocardium. Conclusions High density cardiac fibroblast culture can be used to generate CF-ECM scaffolds. CF-ECM scaffolds seeded with hEMSCs can be maintained on the heart without suture or glue. hEMSC are successfully delivered throughout the myocardium.

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Cold tolerance, cold-induced hyperphagia, and nonshivering thermogenesis are normal in α₁-AMPK^−/−mice

Bauwens¹,

Schmuck

Lindholm³

et al. 2011

American Journal of Physiology-Regulatory, Integrative and Comp

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Caloric restriction does not alter effects of aging in cardiac side population cells

Mulligan

Schmuck

Ertel

et al. 2010

AGE

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The aged heart displays a loss of cardiomyocyte number and function, possibly due to the senescence and decreased regenerative potential that has been observed in some cardiac progenitor cells. An important cardiac progenitor that has not been studied in the context of aging is the cardiac side population (CSP) cell. To address this, flow cytometry-assisted cell sorting was used to isolate CSP cells from adult (6-10 months old) and aged (24-32 months old) C57Bl/6 mice that were fed either a control diet or an anti-aging diet (caloric restriction, CR). Aging caused a 2.3-fold increase in the total number of CSP cells and a 3.2-fold increase in the cardiomyogenic sca1(+)/CD31(-) subpopulation. Aging did not affect markers of proliferation or senescence, including telomerase activity and expression of cell cycle genes, in sca1(+)/CD31(-) CSP cells. In contrast, the aged cells had reduced expression of genes associated with differentiation, including smooth muscle actin and cardiac muscle actin (5.1- and 3.2-fold, respectively). None of these age effects were altered by CR diet. Therefore, it appears that the manner in which CSP cells age is distinct from the aging of post-mitotic tissue (and perhaps other progenitor cells) that can often be attenuated by CR.

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Aging reduces differentiation‐associated gene expression in cardiac side population cells that is not attenuated by caloric restriction

Mulligan¹,

Schmuck

Ertel³

et al. 2010

The FASEB Journal

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The aged heart displays a loss of cardiomyocyte number and function, possibly due to decreased regenerative potential of cardiac progenitor cells. An important cardiac progenitor population that has not been studied in the context of aging is cardiac side population cells (CSPC). To address this, flow cytometry‐assisted cell sorting was used to isolate CSPC from adult (~5‐months old) and aged (~25‐months old) C57Bl/6 mice that were fed either a control diet or an anti‐aging (caloric restriction, CR) diet. Aging caused a 2.0‐fold increase in both the total number of CSPC and in the highly cardiomyogenic sca1+/CD31‐ subpopulation (n=8–10 mice/group). Telomerase activity (a marker of proliferation) in CSPC was not altered by aging (n=4 mice/group). In contrast, aged CSPC showed reduced expression of several genes associated with differentiation, including smooth muscle actin, cardiac muscle actin, and bone collagen type I (5.1‐, 3.2‐, and 2.2‐fold respectively; n=4/group). These data suggest that any loss of regenerative potential in aged CSPC is likely due to inefficiency of differentiation into cardiac lineages rather than poor proliferation rate. None of these age effects were altered by CR diet. Therefore it appears that the manner in which CSPC (and perhaps other types of progenitor cells) age is distinct from the post‐mitotic tissue aging that can often be attenuated by CR.

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Responses of mice lacking α1AMPK to acute and chronic thermogenic challenges

Bauwens¹,

Lindholm²,

Ertel³

et al. 2010

The FASEB Journal

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While activity of α1 isoform of AMP‐activated protein kinase (AMPK) is higher in brown adipose tissue (BAT) than any tissue yet reported, its role in BAT is unknown. Our goal was to elucidate AMPK's in vivo role in BAT, specifically in acute non‐shivering thermogenesis (NST) and chronic (14 days at 4° C) cold‐induced hyperphagia and UCP1 upregulation. C57Bl/6 wild type (WT) and α1AMPK knockout (KO) mice were studied (6–8/group). During acute NST (IP injection of the β3‐adrenergic agonist CL 316,243) core temperature increased similarly (≈0.8°C) in WT and KO mice. Thus α1AMPK is not obligatory for acute NST. In a separate study, chronic cold‐induced hyperphagia was nearly identical in WT and KO mice (≈ 2.5 fold increase in food intake). Chronic cold caused less upregulation of UCP1 in KO (1.9‐fold) than in WT (4‐fold) mice, but did not cause a lower body temperature in KO mice. Therefore α1AMPK is not obligatory for hyperphagia or other adaptations that maintain body temperature near normal during chronic cold exposure. There was little if any compensatory upregulation of α2AMPK in α1AMPK KO mice. Overall our data indicate that high levels of α1AMPK activity in BAT do not play a key role in major aspects of thermoregulation, and instead suggest a currently undefined role for AMPK in BAT physiology.

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Chronic β3 adrenergic stimulation induced remodeling of white adipose tissue in mice

Lindholm¹,

Bauwens²,

Ertel³

et al. 2010

The FASEB Journal

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Obesity and associated co‐morbidities are major health concerns. Here we define how a potential pharmacological treatment for obesity (in vivo chronic stimulation of β3‐adrenergic receptors with CL 316,243) affects remodeling of intra‐abdominal fat and specific serum markers closely related to obesity‐associated co‐morbidities. Male C57Bl/6 mice (n=8/group) were studied during 14 days of either no intervention (controls) or CL infusion (1mg/kg/day via Alza pump) with epididymal fat pads collected at sacrifice. CL treatment had no effect on food intake or body weight but decreased epididymal fat pad mass from 250±29 to 121±19 mg (p<0.01). While CL treatment did not change the protein concentration of whole adipose tissue or the non‐adipocyte cell fraction, it increased protein concentration in the adipocyte fraction > 4‐fold (0.2±0.04 to 0.9±0.09 mg/ml, p<0.01). CL treatment decreased blood glucose from 202±10 to 144±10 mg/dl (p<0.01) and serum leptin from 2.0±0.2 to 1.3±0.2 ng/ml (p<0.01). The cardioprotective adipokine adiponectin was increased from 6.2±0.3 to 8.3±0.3 μg/ml (p<0.01) by CL treatment. We conclude that the favorable serum changes induced by β3‐adrenergic stimulation are not dependent on decreased body weight but instead are likely linked to a remodeling of adipose tissue involving primarily the adipocytes.

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Rebecca L. Ertel

A high-fat diet decreases AMPK activity in multiple tissues in the absence of hyperglycemia or systemic inflammation in rats

Cardiac Fibroblast-Derived 3D Extracellular Matrix Seeded with Mesenchymal Stem Cells as a Novel Device to Transfer Cells to the Ischemic Myocardium

Cold tolerance, cold-induced hyperphagia, and nonshivering thermogenesis are normal in α₁-AMPK^−/−mice

Caloric restriction does not alter effects of aging in cardiac side population cells

Aging reduces differentiation‐associated gene expression in cardiac side population cells that is not attenuated by caloric restriction

Responses of mice lacking α1AMPK to acute and chronic thermogenic challenges

Chronic β3 adrenergic stimulation induced remodeling of white adipose tissue in mice

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Rebecca L. Ertel

A high-fat diet decreases AMPK activity in multiple tissues in the absence of hyperglycemia or systemic inflammation in rats

Cardiac Fibroblast-Derived 3D Extracellular Matrix Seeded with Mesenchymal Stem Cells as a Novel Device to Transfer Cells to the Ischemic Myocardium

Cold tolerance, cold-induced hyperphagia, and nonshivering thermogenesis are normal in α1-AMPK−/−mice

Caloric restriction does not alter effects of aging in cardiac side population cells

Aging reduces differentiation‐associated gene expression in cardiac side population cells that is not attenuated by caloric restriction

Responses of mice lacking α1AMPK to acute and chronic thermogenic challenges

Chronic β3 adrenergic stimulation induced remodeling of white adipose tissue in mice

Contact Info

Product

Resources

About

Cold tolerance, cold-induced hyperphagia, and nonshivering thermogenesis are normal in α₁-AMPK^−/−mice