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3. Secretome profiling identifies T-Cadherin as a potential biomarker for adipose tissue plasticity

Author

Göddeke, S, additional, Knebel, B, additional, Fahlbusch, P, additional, Hörbelt, T, additional, Poschmann, G, additional, van de Velde, F, additional, Benninghoff, T, additional, Al-Hasani, H, additional, Jacob, S, additional, Van Nieuwenhove, Y, additional, Lapauw, B, additional, Lehr, S, additional, Ouwens, DM, additional, and Kotzka, J, additional

Published
2018
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7. Effects of adding exercise to a 16-week very low-calorie diet in obese, insulin-dependent type 2 diabetes mellitus patients.

Author

Snel, M., Snel, M., Gastaldelli, A., Ouwens, DM., Hesselink, M.K.C., Schaart, G., Buzzigoli, E., Frolich, M., Romijn, J.A., Pijl, H., Meinders, A.E., Jazet, I.M., Snel, M., Snel, M., Gastaldelli, A., Ouwens, DM., Hesselink, M.K.C., Schaart, G., Buzzigoli, E., Frolich, M., Romijn, J.A., Pijl, H., Meinders, A.E., and Jazet, I.M.

Abstract

Context:Reduction of 50% excess body weight, using a very low-calorie diet (VLCD; 450 kcal/d) improves insulin sensitivity in obese type 2 diabetes mellitus patients.Objective:The objective of the study was to evaluate whether adding exercise to the VLCD has additional benefits.Design:This was a randomized intervention study.Setting:The study was conducted at a clinical research center in an academic medical center.Subjects:Twenty-seven obese [body mass index 37.2 +/- 0.9 kg/m(2) (mean +/- sem)] insulin-treated type 2 diabetes mellitus patients.Intervention:Patients followed a 16-wk VLCD. Thirteen of them simultaneously participated in an exercise program (E) consisting of 1-h, in-hospital training and four 30-min training sessions on a cycloergometer weekly.Outcome Measures:Insulin resistance was measured by a hyperinsulinemic euglycemic clamp. Insulin signaling, mitochondrial DNA (mtDNA) content, and intramyocellular lipid content was measured in skeletal muscle biopsies.Results:Baseline characteristics were identical in both groups. Substantial weight loss occurred (-23.7 +/- 1.7 kg VLCD-only vs. -27.2 +/- 1.9 kg VLCD+E, P = NS within groups). The exercise group lost more fat mass. Insulin-stimulated glucose disposal increased similarly in both study groups [15.0 +/- 0.9 to 39.2 +/- 4.7 mumol/min(-1) . kg lean body mass (LBM(-1)) VLCD-only vs. 17.0 +/- 1.0 to 37.5 +/- 3.5 mumol/min(-1) . kg LBM(-1) in VLCD+E], as did phosphorylation of the phosphatidylinositol 3-kinase-protein kinase B/AKT insulin signaling pathway. In contrast, skeletal muscle mtDNA content increased only in the VLCD+E group (1211 +/- 185 to 2288 +/- 358, arbitrary units, P = 0.016 vs. 1397 +/- 240 to 1196 +/- 179, P = NS, VLCD-only group). Maximum aerobic capacity also only increased significantly in the VLCD+E group (+6.6 +/- 1.7 ml/min(-1) . kg LBM(-1) vs. +0.7 +/- 1.5 ml/min(-1) . kg LBM(-1) VLCD-only, P = 0.017).Conclusion:Addition of exercise to a 16-wk VLCD induces more fat loss. Exercise

Published
2012

8. Targeting of mitochondrial reactive oxygen species production does not avert lipid-induced insulin resistance in muscle tissue from mice.

Author

Paglialunga, S., Paglialunga, S., van Bree, B.W., Bosma, M., Valdecantos, M. P., Amengual Cladera, E., Jorgensen, J.A., Van Beurden, D., den Hartog, G.J.M., Ouwens, DM., Briedé, J.J., Schrauwen, P., Hoeks, J., Paglialunga, S., Paglialunga, S., van Bree, B.W., Bosma, M., Valdecantos, M. P., Amengual Cladera, E., Jorgensen, J.A., Van Beurden, D., den Hartog, G.J.M., Ouwens, DM., Briedé, J.J., Schrauwen, P., and Hoeks, J.

Abstract

AIMS/HYPOTHESIS: High-fat, high-sucrose diet (HF)-induced reactive oxygen species (ROS) levels are implicated in skeletal muscle insulin resistance and mitochondrial dysfunction. Here we investigated whether mitochondrial ROS sequestering can circumvent HF-induced oxidative stress; we also determined the impact of any reduced oxidative stress on muscle insulin sensitivity and mitochondrial function. METHODS: The Skulachev ion (plastoquinonyl decyltriphenylphosphonium) (SkQ), a mitochondria-specific antioxidant, was used to target ROS production in C2C12 muscle cells as well as in HF-fed (16 weeks old) male C57Bl/6 mice, compared with mice on low-fat chow diet (LF) or HF alone. Oxidative stress was measured as protein carbonylation levels. Glucose tolerance tests, glucose uptake assays and insulin-stimulated signalling were determined to assess muscle insulin sensitivity. Mitochondrial function was determined by high-resolution respirometry. RESULTS: SkQ treatment reduced oxidative stress in muscle cells (-23% p < 0.05), but did not improve insulin sensitivity and glucose uptake under insulin-resistant conditions. In HF mice, oxidative stress was elevated (56% vs LF p < 0.05), an effect completely blunted by SkQ. However, HF and HF+SkQ mice displayed impaired glucose tolerance (AUC HF up 33%, p < 0.001; HF+SkQ up 22%; p < 0.01 vs LF) and disrupted skeletal muscle insulin signalling. ROS sequestering did not improve mitochondrial function. CONCLUSIONS/INTERPRETATION: SkQ treatment reduced muscle mitochondrial ROS production and prevented HF-induced oxidative stress. Nonetheless, whole-body glucose tolerance, insulin-stimulated glucose uptake, muscle insulin signalling and mitochondrial function were not improved. These results suggest that HF-induced oxidative stress is not a prerequisite for the development of muscle insulin resistance.

Published
2012

9. High oxidative capacity due to chronic exercise training attenuates lipid-induced insulin resistance.

Author

Phielix, E., Phielix, E., Meex, R., Ouwens, DM., Sparks, L.M., Hoeks, J., Schaart, G., Kornips, C.F.P., Hesselink, M.K.C., Schrauwen, P., Phielix, E., Phielix, E., Meex, R., Ouwens, DM., Sparks, L.M., Hoeks, J., Schaart, G., Kornips, C.F.P., Hesselink, M.K.C., and Schrauwen, P.

Abstract

Fat accumulation in skeletal muscle combined with low mitochondrial oxidative capacity is associated with insulin resistance (IR). Endurance-trained athletes, characterized by a high oxidative capacity, have elevated intramyocellular lipids, yet are highly insulin sensitive. We tested the hypothesis that a high oxidative capacity could attenuate lipid-induced IR. Nine endurance-trained (age = 23.4 +/- 0.9 years; BMI = 21.2 +/- 0.6 kg/m(2)) and 10 untrained subjects (age = 21.9 +/- 0.9 years; BMI = 22.8 +/- 0.6 kg/m(2)) were included and underwent a clamp with either infusion of glycerol or intralipid. Muscle biopsies were taken to perform high-resolution respirometry and protein phosphorylation/expression. Trained subjects had similar to 32% higher mitochondrial capacity and similar to 22% higher insulin sensitivity (P <0.05 for both). Lipid infusion reduced insulin-stimulated glucose uptake by 63% in untrained subjects (P <0.05), whereas this effect was blunted in trained subjects (29%, P <0.05). In untrained subjects, lipid infusion reduced oxidative and nonoxidative glucose disposal (NOGD), whereas trained subjects were completely protected against lipid-induced reduction in NOGD, supported by dephosphorylation of glycogen synthase. We conclude that chronic exercise training attenuates lipid-induced IR and specifically attenuates the lipid-induced reduction in NOGD. Signaling data support the notion that high glucose uptake in trained subjects is maintained by shuttling glucose toward storage as glycogen. Diabetes 61:2472-2478, 2012

Published
2012

10. Loss of 50% of excess weight using a very low energy diet improves insulin-stimulated glucose disposal and skeletal muscle insulin signalling in obese insulin-treated type 2 diabetic patients

Author

Jazet, I.M., Jazet, I.M., Schaart, G., Gastaldelli, A., Ferrannini, E., Hesselink, M.K., Schrauwen, P., Romijn, J.A., Maassen, J.A., Pijl, H., Ouwens, DM., Meinders, A.E., Jazet, I.M., Jazet, I.M., Schaart, G., Gastaldelli, A., Ferrannini, E., Hesselink, M.K., Schrauwen, P., Romijn, J.A., Maassen, J.A., Pijl, H., Ouwens, DM., and Meinders, A.E.

Abstract

AIMS/HYPOTHESIS: Both energy restriction (ER) per se and weight loss improve glucose metabolism in obese insulin-treated type 2 diabetic patients. Short-term ER decreases basal endogenous glucose production (EGP) but not glucose disposal. In contrast the blood glucose-lowering mechanism of long-term ER with substantial weight loss has not been fully elucidated. The aim of this study was to investigate the effect of loss of 50% of excess weight [50% excess weight reduction (EWR)] on EGP, whole-body insulin sensitivity and the disturbed myocellular insulin-signalling pathway in ten obese insulin-treated type 2 diabetic patients. METHODS: A euglycaemic-hyperinsulinaemic clamp with stable isotopes ([6,6-(2)H2]glucose and [2H5]glycerol) combined with skeletal muscle biopsies was performed during a very low energy diet (VLED; 1,883 kJ/day) on day 2 and again after 50% EWR. Oral blood glucose-lowering agents and insulin were discontinued 3 weeks prior to the VLED and at the start of the VLED, respectively. RESULTS: Loss of 50% EWR (20.3+/-2.2 kg from day 2 to day of 50% EWR) normalised basal EGP and improved insulin sensitivity, especially insulin-stimulated glucose disposal (18.8+/-2.0 to 39.1+/-2.8 micromol kg fat-free mass(-1) min(-1), p=0.001). The latter was accompanied by improved insulin signalling at the level of the recently discovered protein kinase B/Akt substrates AS160 and PRAS40 along with a decrease in intramyocellular lipid (IMCL) content. CONCLUSIONS/INTERPRETATION: Considerable weight loss in obese, insulin-treated type 2 diabetic patients normalises basal EGP and improves insulin sensitivity resulting from an improvement in insulin signal transduction in skeletal muscle. The decrease in IMCL might contribute to this effect.

Published
2008

14. High oxidative capacity due to chronic exercise training attenuates lipid-induced insulin resistance.

Author

Phielix E, Meex R, Ouwens DM, Sparks L, Hoeks J, Schaart G, Moonen-Kornips E, Hesselink MK, Schrauwen P, Phielix, Esther, Meex, Ruth, Ouwens, D Margriet, Sparks, Lauren, Hoeks, Joris, Schaart, Gert, Moonen-Kornips, Esther, Hesselink, Matthijs K C, and Schrauwen, Patrick

Abstract

Fat accumulation in skeletal muscle combined with low mitochondrial oxidative capacity is associated with insulin resistance (IR). Endurance-trained athletes, characterized by a high oxidative capacity, have elevated intramyocellular lipids, yet are highly insulin sensitive. We tested the hypothesis that a high oxidative capacity could attenuate lipid-induced IR. Nine endurance-trained (age = 23.4 ± 0.9 years; BMI = 21.2 ± 0.6 kg/m(2)) and 10 untrained subjects (age = 21.9 ± 0.9 years; BMI = 22.8 ± 0.6 kg/m(2)) were included and underwent a clamp with either infusion of glycerol or intralipid. Muscle biopsies were taken to perform high-resolution respirometry and protein phosphorylation/expression. Trained subjects had ~32% higher mitochondrial capacity and ~22% higher insulin sensitivity (P < 0.05 for both). Lipid infusion reduced insulin-stimulated glucose uptake by 63% in untrained subjects (P < 0.05), whereas this effect was blunted in trained subjects (29%, P < 0.05). In untrained subjects, lipid infusion reduced oxidative and nonoxidative glucose disposal (NOGD), whereas trained subjects were completely protected against lipid-induced reduction in NOGD, supported by dephosphorylation of glycogen synthase. We conclude that chronic exercise training attenuates lipid-induced IR and specifically attenuates the lipid-induced reduction in NOGD. Signaling data support the notion that high glucose uptake in trained subjects is maintained by shuttling glucose toward storage as glycogen. [ABSTRACT FROM AUTHOR]

Published
2012
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15. Glucagon-like peptide-1 receptor agonist treatment prevents glucocorticoid-induced glucose intolerance and islet-cell dysfunction in humans.

Author

van Raalte DH, van Genugten RE, Linssen MM, Ouwens DM, Diamant M, van Raalte, Daniël H, van Genugten, Renate E, Linssen, Margot M L, Ouwens, D Margriet, and Diamant, Michaela

Abstract

Objective: Glucocorticoids (GCs) are regarded as diabetogenic because they impair insulin sensitivity and islet-cell function. This study assessed whether treatment with the glucagon-like peptide receptor agonist (GLP-1 RA) exenatide (EXE) could prevent GC-induced glucose intolerance.Research Design and Methods: A randomized, placebo-controlled, double-blind, crossover study in eight healthy men (age: 23.5 [20.0-28.3] years; BMI: 26.4 [24.3-28.0] kg/m(2)) was conducted. Participants received three therapeutic regimens for 2 consecutive days: 1) 80 mg of oral prednisolone (PRED) every day (q.d.) and intravenous (IV) EXE infusion (PRED+EXE); 2) 80 mg of oral PRED q.d. and IV saline infusion (PRED+SAL); and 3) oral placebo-PRED q.d. and intravenous saline infusion (PLB+SAL). On day 1, glucose tolerance was assessed during a meal challenge test. On day 2, participants underwent a clamp procedure to measure insulin secretion and insulin sensitivity.Results: PRED+SAL treatment increased postprandial glucose levels (vs. PLB+SAL, P = 0.012), which was prevented by concomitant EXE (vs. PLB+SAL, P = NS). EXE reduced PRED-induced hyperglucagonemia during the meal challenge (P = 0.018) and decreased gastric emptying (vs. PRED+SAL, P = 0.028; vs. PLB+SAL, P = 0.046). PRED+SAL decreased first-phase glucose- and arginine-stimulated C-peptide secretion (vs. PLB+SAL, P = 0.017 and P = 0.05, respectively), whereas PRED+EXE improved first- and second-phase glucose- and arginine-stimulated C-peptide secretion (vs. PLB+SAL; P = 0.017, 0.012, and 0.093, respectively).Conclusions: The GLP-1 RA EXE prevented PRED-induced glucose intolerance and islet-cell dysfunction in healthy humans. Incretin-based therapies should be explored as a potential strategy to prevent steroid diabetes. [ABSTRACT FROM AUTHOR]

Published
2011
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16. Intracerebroventricular administration of neuropeptide Y induces hepatic insulin resistance via sympathetic innervation.

Author

van den Hoek AM, van Heijningen C, Schröder-van der Elst JP, Ouwens DM, Havekes LM, Romijn JA, Kalsbeek A, Pijl H, van den Hoek, Anita M, van Heijningen, Caroline, Schröder-van der Elst, Janny P, Ouwens, D Margriet, Havekes, Louis M, Romijn, Johannes A, Kalsbeek, Andries, and Pijl, Hanno

Abstract

Objective: We recently showed that intracerebroventricular infusion of neuropeptide Y (NPY) hampers inhibition of endogenous glucose production (EGP) by insulin in mice. The downstream mechanisms responsible for these effects of NPY remain to be elucidated. Therefore, the aim of this study was to establish whether intracerebroventricular NPY administration modulates the suppressive action of insulin on EGP via hepatic sympathetic or parasympathetic innervation.Research Design and Methods: The effects of a continuous intracerebroventricular infusion of NPY on glucose turnover were determined in rats during a hyperinsulinemic-euglycemic clamp. Either rats were sham operated, or the liver was sympathetically (hepatic sympathectomy) or parasympathetically (hepatic parasympathectomy) denervated.Results: Sympathectomy or parasympathectomy did not affect the capacity of insulin to suppress EGP in intracerebroventricular vehicle-infused animals (50 +/- 8 vs. 49 +/- 6 vs. 55 +/- 6%, in hepatic sympathectomy vs. hepatic parasympathectomy vs. sham, respectively). Intracerebroventricular infusion of NPY significantly hampered the suppression of EGP by insulin in sham-denervated animals (29 +/- 9 vs. 55 +/- 6% for NPY/sham vs. vehicle/sham, respectively, P = 0.038). Selective sympathetic denervation of the liver completely blocked the effect of intracerebroventricular NPY administration on insulin action to suppress EGP (NPY/hepatic sympathectomy, 57 +/- 7%), whereas selective parasympathetic denervation had no effect (NPY/hepatic parasympathectomy, 29 +/- 7%).Conclusions: Intracerebroventricular administration of NPY acutely induces insulin resistance of EGP via activation of sympathetic output to the liver. [ABSTRACT FROM AUTHOR]

Published
2008
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17. Interactive contribution of hyperinsulinemia, hyperglycemia, and mammalian target of rapamycin signaling to valvular interstitial cell differentiation and matrix remodeling.

Author

Selig JI, Krug HV, Küppers C, Ouwens DM, Kraft FA, Adler E, Bauer SJ, Lichtenberg A, Akhyari P, and Barth M

Abstract

Diabetes and its major key determinants insulin resistance and hyperglycemia are known risk factors for calcific aortic valve disease (CAVD). The processes leading to molecular and structural alterations of the aortic valve are yet not fully understood. In previous studies, we could show that valvular interstitial cells (VIC) display canonical elements of classical insulin signaling and develop insulin resistance upon hyperinsulinemia and hyperglycemia accompanied by impaired glucose metabolism. Analyses of cultured VIC and aortic valve tissue revealed extracellular matrix remodeling and degenerative processes. Since PI3K signaling through mammalian target of rapamycin (mTOR) is involved in fibrotic processes of the heart, we aim at further functional investigation of this particular Akt-downstream signaling pathway in the context of diabetes-induced CAVD. Primary cultures of VIC were treated with hyperinsulinemia and hyperglycemia. Phosphorylation of mTOR(Ser 2448 ) was determined by Western blot analysis after acute insulin stimulus. Inhibition of mTOR phosphorylation was performed by rapamycin. Phosphorylation of mTOR complex 1 (MTORC1) downstream substrates 4E-BP1(Thr 37/46 ) and P70S6K(Thr 389 ), and MTORC2 downstream substrate Akt(Ser 473 ) as well as the PDK1-dependent phosphorylation of Akt(Thr 308 ) was investigated. Markers for extracellular matrix remodeling, cell differentiation and degenerative changes were analyzed by Western blot analysis, semi-quantitative real-time PCR and colorimetric assays. Hyperinsulinemia and hyperglycemia lead to alterations of VIC activation, differentiation and matrix remodeling as well as to an abrogation of mTOR phosphorylation. Inhibition of mTOR signaling by rapamycin leads to a general downregulation of matrix molecules, but to an upregulation of α-smooth muscle actin expression and alkaline phosphatase activity. Comparison of expression patterns upon diabetic conditions and rapamycin treatment reveal a possible regulation of particular matrix components and key degeneration markers by MTORC1 downstream signaling. The present findings broaden the understanding of mitogenic signaling pathways in VIC triggered by hyperinsulinemia and hyperglycemia, supporting the quest for developing strategies of prevention and tailored treatment of CAVD in diabetic patients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Selig, Krug, Küppers, Ouwens, Kraft, Adler, Bauer, Lichtenberg, Akhyari and Barth.)

Published
2022
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18. Nudix hydrolase NUDT19 regulates mitochondrial function and ATP production in murine hepatocytes.

Author

Görigk S, Ouwens DM, Kuhn T, Altenhofen D, Binsch C, Damen M, Khuong JM, Kaiser K, Knebel B, Vogel H, Schürmann A, Chadt A, and Al-Hasani H

Subjects
Animals, Mice, Adenosine Triphosphate metabolism, Hepatocytes metabolism, Mitochondria genetics, Mitochondria metabolism, Nudix Hydrolases, Diabetes Mellitus, Type 2 genetics, Diabetes Mellitus, Type 2 metabolism, Non-alcoholic Fatty Liver Disease genetics, Non-alcoholic Fatty Liver Disease metabolism, Pyrophosphatases metabolism
Abstract

Changes in intracellular CoA levels are known to contribute to the development of non-alcoholic fatty liver disease (NAFLD) in type 2 diabetes (T2D) in human and rodents. However, the underlying genetic basis is still poorly understood. Due to their diverse susceptibility towards metabolic diseases, mouse inbred strains have been proven to serve as powerful tools for the identification of novel genetic factors that underlie the pathophysiology of NAFLD and diabetes. Transcriptome analysis of mouse liver samples revealed the nucleoside diphosphate linked moiety X-type motif Nudt19 as novel candidate gene responsible for NAFLD and T2D development. Knockdown (KD) of Nudt19 increased mitochondrial and glycolytic ATP production rates in Hepa 1-6 cells by 41% and 10%, respectively. The enforced utilization of glutamine or fatty acids as energy substrate reduced uncoupled respiration by 41% and 47%, respectively, in non-target (NT) siRNA transfected cells. This reduction was prevented upon Nudt19 KD. Furthermore, incubation with palmitate or oleate respectively increased mitochondrial ATP production by 31% and 20%, and uncoupled respiration by 23% and 30% in Nudt19 KD cells, but not in NT cells. The enhanced fatty acid oxidation in Nudt19 KD cells was accompanied by a 1.3-fold increased abundance of Pdk4. This study is the first to describe Nudt19 as regulator of hepatic lipid metabolism and potential mediator of NAFLD and T2D development., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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19. Canonical WNT pathway inhibition reduces ATP synthesis rates in glioblastoma stem cells.

Author

Ouwens DM, Hewera M, Li G, Di W, Muhammad S, Hänggi D, Steiger HJ, Dumitru CA, Sandalcioglu E, Croner RS, Zhang W, Kakhlon O, and Kahlert UD

Subjects
Adenosine Triphosphate metabolism, Cell Line, Tumor, Glycolysis, Humans, Neoplastic Stem Cells pathology, Wnt Signaling Pathway, beta Catenin metabolism, Glioblastoma pathology
Abstract

Background: The conserved stem cell signaling network canonical Wingless (WNT) plays important roles in development and disease. Aberrant activation of this pathway has been linked to tumor progression and resistance to therapy. Industry and academia have substantially invested in developing substances, which can efficiently and specifically block the WNT signaling pathway. However, a clear clinical proof of the efficacy of this approach is still missing. Studies on the metabolomics dysregulation of cancer cells have led to innovations in oncological diagnostics. In addition, modulation of cancer cell metabolome is at the base of promising clinical oncology trials currently underway. While onco-protein activation can have profound metabolic outcomes, the involvement of stem cell signals, such as the WNT pathway, in tumor cell metabolomics is yet insufficiently characterized., Material and Methods: We determined live cell metabolism and bioenergetics in pathophysiological relevant, WNT-dependent glioblastoma stem cell (GSC) models. We quantified those parameters in cells with canonical WNT activity and in isogenic cells where WNT activity had been inhibited by short hairpin RNA against β-catenin. Furthermore, we applied computational analysis of RNA sequencing to verify our functional findings in independent GSCs cohorts., Results: The investigated collection of disease models allows the separation in tumors with low, moderate and high base line metabolic activity. Suppression of canonical WNT signaling led to significant reduction of total, mitochondrial, and glycolytic ATP production rates. Elevated canonical WNT transcription signature in GSCs positively correlated with transcription levels of mitochondrial ATP synthesis, whereas non-canonical WNT gene expression signature did not., Conclusion: The applied disease modeling technology allows the recapitulation of inter-tumoral heterogeneous metabolic properties of glioblastoma. Our data show for the first time that inhibition of canonical WNT signaling in alive GSCs functionally correlates with energy inhibition and glucose homeostasis. As this correlation occurs in GSCs from different transcriptional or epigenetic transcriptional subtypes, our results suggest that developing therapies directed against glycolysis/ATP-synthesis may be a promising strategy to overcome therapy resistance due to inter-tumoral heterogeneity and offers starting point to impair downstream signal WNT., Competing Interests: The authors declare no conflict of interest., (© 2022 The Author(s). Published by IMR Press.)

Published
2022
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20. Postprandial renal haemodynamic effects of the dipeptidyl peptidase-4 inhibitor linagliptin versus the sulphonylurea glimepiride in adults with type 2 diabetes (RENALIS): A predefined substudy of a randomized, double-blind trial.

Author

Muskiet MHA, Tonneijck L, Smits MM, Kramer MHH, Ouwens DM, Hartmann B, Holst JJ, Danser AHJ, Joles JA, and van Raalte DH

Subjects
Adult, Blood Glucose, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases, Double-Blind Method, Glycated Hemoglobin, Hemodynamics, Humans, Hypoglycemic Agents therapeutic use, Linagliptin therapeutic use, Sulfonylurea Compounds, Treatment Outcome, Diabetes Mellitus, Type 2, Dipeptidyl-Peptidase IV Inhibitors therapeutic use
Abstract

Aim: To determine the effect of the dipeptidyl peptidase-4 inhibitor linagliptin on postprandial glomerular hyperfiltration compared with the sulphonylurea glimepiride in adults with type 2 diabetes (T2D)., Materials and Methods: In this predefined substudy within a randomized, double-blind, parallel-group, intervention trial, overweight people with T2D without renal impairment were treated with once-daily linagliptin 5 mg (N = 10) or glimepiride 1 mg (N = 13) as an add-on to metformin for 8 weeks. After a standardized liquid protein-rich meal, the glomerular filtration rate (GFR) and effective renal plasma flow were determined by inulin and para-aminohippuric acid clearance, respectively, based on timed urine sampling. Intrarenal haemodynamics were estimated using the Gomez equations. Glucoregulatory/vasoactive hormones, urinary pH and fractional excretions (FE) of sodium, potassium and urea were measured., Results: Compared with glimepiride, linagliptin increased the postprandial filtration fraction (FF; mean difference 2.1%-point; P = .016) and estimated glomerular hydraulic pressure (mean difference 3.0 mmHg; P = .050), and tended to increase GFR (P = .08) and estimated efferent renal arteriolar resistance (R E ; P = .08) from baseline to week 8. No differences in FE were noted. Glimepiride reduced HbA1c more than linagliptin (mean difference -0.40%; P = .004), without between-group differences in time-averaged postprandial glucose levels. In the linagliptin group, change in FF correlated with change in mean arterial pressure (R = 0.807; P = .009) and time-averaged mean glucagon (R = 0.782; P = .008), but not with changes in glucose, insulin, intact glucagon-like peptide-1, renin or FE Na . Change in glucagon was associated with change in R E (R = 0.830; P = .003)., Conclusions: In contrast to our hypothesis, compared with glimepiride, linagliptin does not reduce postprandial hyperfiltration, yet appears to increase FF after meal ingestion by increasing blood pressure or R E ., (© 2021 The Authors. Diabetes, Obesity and Metabolism published by John Wiley & Sons Ltd.)

Published
2022
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21. Divergent dynamics in systemic and tissue-specific metabolic and inflammatory responses during weight loss in subjects with obesity.

Author

Van de Velde F, Ouwens DM, Batens AH, Van Nieuwenhove Y, and Lapauw B

Subjects
Abdominal Fat metabolism, Biomarkers metabolism, Blood Glucose metabolism, C-Reactive Protein metabolism, Female, Humans, Insulin metabolism, Male, Middle Aged, Muscle, Skeletal metabolism, Prospective Studies, Subcutaneous Fat metabolism, Inflammation metabolism, Obesity metabolism, Weight Loss physiology
Abstract

Aim: Dysfunction of adipose and muscle tissue associates with obesity-related co-morbidities such as insulin resistance (IR) and inflammation. This study investigates changes in systemic and tissue-specific markers of IR and inflammation after gastric bypass surgery (GBS) in subjects with obesity., Methods: Prospective study, twenty subjects with obesity (50 ± 10 years, 14 men). Prior to, and six months and one year after GBS, subcutaneous abdominal adipose tissue (SAT), skeletal muscle and fasting serum samples were collected. Serum levels of C-reactive protein (CRP), glucose and insulin were determined using standard laboratory assays and serum IL-6, IL-10 and TNF-α levels were determined using ELISA. Tissue mRNA expression of inflammation and insulin/glucose metabolism markers were analyzed using qPCR., Results: After GBS, HOMA-IR, CRP and IL-6 serum levels decreased. In SAT, expression of bone morphogenetic protein 4 (BMP4), IL-6, IL-10 and MCP1 decreased and GLUT4 increased (all p < 0.05). In muscle, expression of BMP4, GLUT4 and IL-6 decreased and of MCP1 and IRS-1 increased (all p < 0.05)., Conclusion: Systemic improvements in inflammation and IR after GBS are only partially mirrored by corresponding changes in adipokine and myokine expression patterns. As changes in expression of other markers of inflammation and insulin/glucose metabolism appear less consistent and even divergent between tissues, the inflammatory and IR status at systemic level cannot be extrapolated to the situation in metabolically active tissues., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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22. Crosstalk of Diabetic Conditions with Static Versus Dynamic Flow Environment-Impact on Aortic Valve Remodeling.

Author

Selig JI, Boulgaropoulos J, Niazy N, Ouwens DM, Preuß K, Horn P, Westenfeld R, Lichtenberg A, Akhyari P, and Barth M

Subjects
Animals, Aortic Valve Disease genetics, Aortic Valve Stenosis genetics, Diabetes Mellitus metabolism, Humans, Hyperglycemia metabolism, Hyperinsulinism metabolism, Aortic Valve Disease metabolism, Aortic Valve Stenosis metabolism, Diabetes Mellitus pathology, Hyperglycemia pathology, Hyperinsulinism pathology, Insulin metabolism
Abstract

Type 2 diabetes mellitus (T2D) is one of the prominent risk factors for the development and progression of calcific aortic valve disease. Nevertheless, little is known about molecular mechanisms of how T2D affects aortic valve (AV) remodeling. In this study, the influence of hyperinsulinemia and hyperglycemia on degenerative processes in valvular tissue is analyzed in intact AV exposed to an either static or dynamic 3D environment, respectively. The complex native dynamic environment of AV is simulated using a software-governed bioreactor system with controlled pulsatile flow. Dynamic cultivation resulted in significantly stronger fibrosis in AV tissue compared to static cultivation, while hyperinsulinemia and hyperglycemia had no impact on fibrosis. The expression of key differentiation markers and proteoglycans were altered by diabetic conditions in an environment-dependent manner. Furthermore, hyperinsulinemia and hyperglycemia affect insulin-signaling pathways. Western blot analysis showed increased phosphorylation level of protein kinase B (AKT) after acute insulin stimulation, which was lost in AV under hyperinsulinemia, indicating acquired insulin resistance of the AV tissue in response to elevated insulin levels. These data underline a complex interplay of diabetic conditions on one hand and biomechanical 3D environment on the other hand that possesses an impact on AV tissue remodeling.

Published
2021
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23. Hepatic Wnt1 Inducible Signaling Pathway Protein 1 (WISP-1/CCN4) Associates with Markers of Liver Fibrosis in Severe Obesity.

Author

Pivovarova-Ramich O, Loske J, Hornemann S, Markova M, Seebeck N, Rosenthal A, Klauschen F, Castro JP, Buschow R, Grune T, Lange V, Rudovich N, and Ouwens DM

Subjects
Adult, CCN Intercellular Signaling Proteins genetics, CD11 Antigens genetics, CD11 Antigens metabolism, Cell Line, Chemokine CCL2 genetics, Chemokine CCL2 metabolism, Collagen genetics, Collagen metabolism, Female, Humans, Liver pathology, Liver Cirrhosis etiology, Male, Matrix Metalloproteinase 9 genetics, Matrix Metalloproteinase 9 metabolism, Middle Aged, Obesity, Morbid complications, Proto-Oncogene Proteins genetics, Tissue Inhibitor of Metalloproteinase-1 genetics, Tissue Inhibitor of Metalloproteinase-1 metabolism, Transforming Growth Factor beta genetics, Transforming Growth Factor beta metabolism, CCN Intercellular Signaling Proteins metabolism, Liver metabolism, Liver Cirrhosis metabolism, Obesity, Morbid metabolism, Proto-Oncogene Proteins metabolism
Abstract

Liver fibrosis is a critical complication of obesity-induced fatty liver disease. Wnt1 inducible signaling pathway protein 1 (WISP1/CCN4), a novel adipokine associated with visceral obesity and insulin resistance, also contributes to lung and kidney fibrosis. The aim of the present study was to investigate the role of CCN4 in liver fibrosis in severe obesity. For this, human liver biopsies were collected from 35 severely obese humans (BMI 42.5 ± 0.7 kg/m 2 , age 46.7 ± 1.8 y, 25.7% males) during bariatric surgery and examined for the expression of CCN4, fibrosis, and inflammation markers. Hepatic stellate LX-2 cells were treated with human recombinant CCN4 alone or in combination with LPS or transforming growth factor beta (TGF-β) and examined for fibrosis and inflammation markers. CCN4 mRNA expression in the liver positively correlated with BMI and expression of fibrosis markers COL1A1, COL3A1, COL6A1, αSMA, TGFB1, extracellular matrix turnover enzymes TIMP1 and MMP9, and the inflammatory marker ITGAX/CD11c. In LX-2 cells, the exposure to recombinant CCN4 caused dose-dependent induction of MMP9 and MCP1. CCN4 potentiated the TGF-β-mediated induction of COL3A1, TIMP1, and MCP1 but showed no interaction with LPS treatment. Our results suggest a potential contribution of CCN4 to the early pathogenesis of obesity-associated liver fibrosis.

Published
2021
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24. Effects of DPP-4 Inhibitor Linagliptin Versus Sulfonylurea Glimepiride as Add-on to Metformin on Renal Physiology in Overweight Patients With Type 2 Diabetes (RENALIS): A Randomized, Double-Blind Trial.

Author

Muskiet MHA, Tonneijck L, Smits MM, Kramer MHH, Ouwens DM, Hartmann B, Holst JJ, Touw DJ, Danser AHJ, Joles JA, and van Raalte DH

Subjects
Adult, Aged, Chemokine CXCL12 blood, Diabetes Mellitus, Type 2 blood, Dipeptidyl Peptidase 4 blood, Dipeptidyl-Peptidase IV Inhibitors administration & dosage, Double-Blind Method, Drug Therapy, Combination adverse effects, Female, Glomerular Filtration Rate, Glycated Hemoglobin analysis, Humans, Linagliptin administration & dosage, Male, Middle Aged, Natriuresis drug effects, Sulfonylurea Compounds administration & dosage, Treatment Outcome, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 drug therapy, Dipeptidyl-Peptidase IV Inhibitors adverse effects, Kidney drug effects, Linagliptin adverse effects, Metformin adverse effects, Overweight complications, Sulfonylurea Compounds adverse effects
Abstract

Objective: To compare effects of the dipeptidyl peptidase 4 (DPP-4) inhibitor linagliptin with those of a sulfonylurea on renal physiology in metformin-treated patients with type 2 diabetes mellitus (T2DM)., Research Design and Methods: In this double-blind randomized trial, 46 overweight T2DM patients without renal impairment received once-daily linagliptin (5 mg) or glimepiride (1 mg) for 8 weeks. Fasting glomerular filtration rate (GFR) and effective renal plasma flow (ERPF) were determined by inulin and para-aminohippuric acid clearances. Fractional excretions, urinary damage markers, and circulating DPP-4 substrates (among others, glucagon-like peptide 1 and stromal cell-derived factor-1α [SDF-1α]) were measured., Results: HbA 1c reductions were similar with linagliptin (-0.45 ± 0.09%) and glimepiride (-0.65 ± 0.10%) after 8 weeks ( P = 0.101). Linagliptin versus glimepiride did not affect GFR, ERPF, estimated intrarenal hemodynamics, or damage markers. Only linagliptin increased fractional excretion (FE) of sodium (FE Na ) and potassium, without affecting FE of lithium. Linagliptin-induced change in FE Na correlated with SDF-1α ( R = 0.660) but not with other DPP-4 substrates., Conclusions: Linagliptin does not affect fasting renal hemodynamics compared with glimepiride in T2DM patients. DPP-4 inhibition promotes modest natriuresis, possibly mediated by SDF-1α, likely distal to the macula densa., (© 2020 by the American Diabetes Association.)

Published
2020
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25. Effects of dipeptidyl peptidase-4 inhibitor linagliptin versus sulphonylurea glimepiride on systemic haemodynamics in overweight patients with type 2 diabetes: A secondary analysis of an 8-week, randomized, controlled, double-blind trial.

Author

Kraaijenhof J, Muskiet MHA, Tonneijck L, Ouwens DM, Kramer MHH, van Raalte DH, and Smits MM

Subjects
Blood Glucose, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases, Double-Blind Method, Glycated Hemoglobin, Hemodynamics, Humans, Hypoglycemic Agents therapeutic use, Linagliptin therapeutic use, Overweight complications, Sulfonylurea Compounds, Treatment Outcome, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 drug therapy, Dipeptidyl-Peptidase IV Inhibitors therapeutic use
Abstract

Aim: To determine the glucose-independent effect of the dipeptidyl peptidase-4 (DPP-4) inhibitor linagliptin versus the sulphonylurea glimepiride on systemic haemodynamics in the fasting and postprandial state in patients with type 2 diabetes (T2D)., Materials and Methods: In this prespecified secondary analysis of a phase IV, double-blind trial, 46 metformin-treated, overweight patients with T2D were included and randomly assigned (1:1) to once-daily linagliptin (5 mg) or glimepiride (1 mg) for 8 weeks. In a sub-study involving 26 patients, systemic haemodynamics were also assessed following a standardized liquid meal (Nutridrink Yoghurt style). Systemic haemodynamics (oscillometric device and finger photoplethysmography), arterial stiffness (applanation tonometry) and cardiac sympathovagal balance (heart rate variability [HRV]) were measured in the fasting state and repetitively following the meal. Ewing tests were performed in the fasting state., Results: From baseline to week 8, linagliptin compared with glimepiride did not affect systemic haemodynamics, arterial stiffness or HRV in the fasting state. Linagliptin increased parasympathetic nervous activity, as measured by the Valsalva manoeuvre (P = .021) and deep breathing test (P = .027) compared with glimepiride. Postprandially, systolic blood pressure (SBP) dropped an average of 7.6 ± 1.6 mmHg. Linagliptin reduced this decrease to 0.7 ± 2.3 mmHg, which was significant to glimepiride (P = .010)., Conclusions: When compared with glimepiride, linagliptin does not affect fasting blood pressure. However, linagliptin blunted the postprandial drop in SBP, which could benefit patients with postprandial hypotension., (© 2020 The Authors. Diabetes, Obesity and Metabolism published by John Wiley & Sons Ltd.)

Published
2020
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26. Physiological Disturbance in Fatty Liver Energy Metabolism Converges on IGFBP2 Abundance and Regulation in Mice and Men.

Author

Fahlbusch P, Knebel B, Hörbelt T, Barbosa DM, Nikolic A, Jacob S, Al-Hasani H, Van de Velde F, Van Nieuwenhove Y, Müller-Wieland D, Lapauw B, Ouwens DM, and Kotzka J

Subjects
Adult, Animals, Body Weight, Case-Control Studies, Energy Metabolism genetics, Hepatocytes metabolism, Humans, Insulin Resistance, Insulin-Like Growth Factor Binding Protein 2 blood, Insulin-Like Growth Factor Binding Protein 2 metabolism, Insulin-Like Growth Factor Binding Protein 3 blood, Insulin-Like Growth Factor I analysis, Male, Mice, Inbred C57BL, Mice, Transgenic, Middle Aged, Non-alcoholic Fatty Liver Disease genetics, Obesity complications, Obesity metabolism, Obesity surgery, Sterol Regulatory Element Binding Protein 1 genetics, Sterol Regulatory Element Binding Protein 1 metabolism, Energy Metabolism physiology, Insulin-Like Growth Factor Binding Protein 2 genetics, Non-alcoholic Fatty Liver Disease metabolism
Abstract

Fatty liver occurs from simple steatosis with accumulated hepatic lipids and hepatic insulin resistance to severe steatohepatitis, with aggravated lipid accumulation and systemic insulin resistance, but this progression is still poorly understood. Analyses of hepatic gene expression patterns from alb-SREBP-1c mice with moderate, or aP2-SREBP-1c mice with aggravated, hepatic lipid accumulation revealed IGFBP2 as key nodal molecule differing between moderate and aggravated fatty liver. Reduced IGFBP2 expression in aggravated fatty liver was paralleled with promoter hypermethylation, reduced hepatic IGFBP2 secretion and IGFBP2 circulating in plasma. Physiologically, the decrease of IGFBP2 was accompanied with reduced fatty acid oxidation and increased de novo lipogenesis potentially mediated by IGF1 in primary hepatocytes. Furthermore, methyltransferase and sirtuin activities were enhanced. In humans, IGFBP2 serum concentration was lower in obese men with non-alcoholic fatty liver disease (NAFLD) and steatohepatitis (NASH) compared to non-obese controls, and liver fat reduction by weight-loss intervention correlated with an increase of IGFBP2 serum levels. In conclusion, hepatic IGFBP2 abundance correlates to its circulating level and is related to hepatic energy metabolism and de novo lipogenesis. This designates IGFBP2 as non-invasive biomarker for fatty liver disease progression and might further provide an additional variable for risk prediction for pathogenesis of fatty liver in diabetes subtype clusters.

Published
2020
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27. One-leg inactivity induces a reduction in mitochondrial oxidative capacity, intramyocellular lipid accumulation and reduced insulin signalling upon lipid infusion: a human study with unilateral limb suspension.

Author

Bilet L, Phielix E, van de Weijer T, Gemmink A, Bosma M, Moonen-Kornips E, Jorgensen JA, Schaart G, Zhang D, Meijer K, Hopman M, Hesselink MKC, Ouwens DM, Shulman GI, Schrauwen-Hinderling VB, and Schrauwen P

Subjects
Humans, Insulin Resistance physiology, Lipid Metabolism physiology, Male, Mitochondria metabolism, Muscle, Skeletal physiology, Oxidative Stress physiology, Signal Transduction physiology, Insulin metabolism, Leg physiology, Muscle, Skeletal metabolism, Restraint, Physical physiology
Abstract

Aims/hypothesis: Physical inactivity, low mitochondrial function, increased intramyocellular lipid (IMCL) deposition and reduced insulin sensitivity are common denominators of chronic metabolic disorders, like obesity and type 2 diabetes. Yet, whether low mitochondrial function predisposes to insulin resistance in humans is still unknown., Methods: Here we investigated, in an intervention study, whether muscle with low mitochondrial oxidative capacity, induced by one-legged physical inactivity, would feature stronger signs of lipid-induced insulin resistance. To this end, ten male participants (age 22.4 ± 4.2 years, BMI 21.3 ± 2.0 kg/m 2 ) underwent a 12 day unilateral lower-limb suspension with the contralateral leg serving as an active internal control., Results: In vivo, mitochondrial oxidative capacity, assessed by phosphocreatine (PCr)-recovery half-time, was lower in the inactive vs active leg. Ex vivo, palmitate oxidation to 14 CO 2 was lower in the suspended leg vs the active leg; however, this did not result in significantly higher [ 14 C]palmitate incorporation into triacylglycerol. The reduced mitochondrial function in the suspended leg was, however, paralleled by augmented IMCL content in both musculus tibialis anterior and musculus vastus lateralis, and by increased membrane bound protein kinase C (PKC) θ. Finally, upon lipid infusion, insulin signalling was lower in the suspended vs active leg., Conclusions/interpretation: Together, these results demonstrate, in a unique human in vivo model, that a low mitochondrial oxidative capacity due to physical inactivity directly impacts IMCL accumulation and PKCθ translocation, resulting in impaired insulin signalling upon lipid infusion. This demonstrates the importance of mitochondrial oxidative capacity and muscle fat accumulation in the development of insulin resistance in humans., Trial Registration: ClinicalTrial.gov NCT01576250., Funding: PS was supported by a 'VICI' Research Grant for innovative research from the Netherlands Organization for Scientific Research (Grant 918.96.618).

Published
2020
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28. Rhein, a novel Histone Deacetylase (HDAC) inhibitor with antifibrotic potency in human myocardial fibrosis.

Author

Barbosa DM, Fahlbusch P, Herzfeld de Wiza D, Jacob S, Kettel U, Al-Hasani H, Krüger M, Ouwens DM, Hartwig S, Lehr S, Kotzka J, and Knebel B

Subjects
Adult, Blotting, Western, Cardiomyopathies genetics, Cardiomyopathies metabolism, Cyclin-Dependent Kinase Inhibitor p21 genetics, Cyclin-Dependent Kinase Inhibitor p21 metabolism, Female, Humans, Male, Middle Aged, Real-Time Polymerase Chain Reaction, Smad2 Protein genetics, Smad2 Protein metabolism, Smad3 Protein genetics, Smad3 Protein metabolism, Smad7 Protein genetics, Smad7 Protein metabolism, Transcriptome genetics, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 metabolism, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, Anthraquinones pharmacology, Fibroblasts drug effects, Fibroblasts metabolism, Histone Deacetylase 1 antagonists & inhibitors, Histone Deacetylase 2 antagonists & inhibitors
Abstract

Although fibrosis depicts a reparative mechanism, maladaptation of the heart due to excessive production of extracellular matrix accelerates cardiac dysfunction. The anthraquinone Rhein was examined for its anti-fibrotic potency to mitigate cardiac fibroblast-to-myofibroblast transition (FMT). Primary human ventricular cardiac fibroblasts were subjected to hypoxia and characterized with proteomics, transcriptomics and cell functional techniques. Knowledge based analyses of the omics data revealed a modulation of fibrosis-associated pathways and cell cycle due to Rhein administration during hypoxia, whereas p53 and p21 were identified as upstream regulators involved in the manifestation of cardiac fibroblast phenotypes. Mechanistically, Rhein acts inhibitory on HDAC classes I/II as enzymatic inhibitor. Rhein-mediated cellular effects were linked to the histone deacetylase (HDAC)-dependent protein stabilization of p53 under normoxic but not hypoxic conditions. Functionally, Rhein inhibited collagen contraction, indicating anti-fibrotic property in cardiac remodeling. This was accompanied by increased abundance of SMAD7, but not SMAD2/3, and consistently SMAD-specific E3 ubiquitin ligase SMURF2. In conclusion, this study identifies Rhein as a novel potent direct HDAC inhibitor that may contribute to the treatment of cardiac fibrosis as anti-fibrotic agent. As readily available drug with approved safety, Rhein constitutes a promising potential therapeutic approach in the supplemental and protective intervention of cardiac fibrosis.

Published
2020
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29. The small chain fatty acid butyrate antagonizes the TCR-stimulation-induced metabolic shift in murine epidermal gamma delta T cells.

Author

Häselbarth L, Ouwens DM, Teichweyde N, Hochrath K, Merches K, and Esser C

Abstract

The metabolic requirements change during cell proliferation and differentiation. Upon antigen-stimulation, effector T cells switch from adenosine-triphospate (ATP)-production by oxidative phosphorylation in the mitochondria to glycolysis. In the gut it was shown that short chain fatty acids (SCFA), fermentation products of the microbiota in colon, ameliorate inflammatory reactions by supporting the differentiation of regulatory T cells. SCFA are a major energy source, but they are also anabolic metabolites, histone-deacetylase-inhibitors and activators of G protein receptors. Recently, it was reported that a topical application of the SCFA butyrate promotes regulatory T cells in the skin. Here we ask if the SCFA butyrate, propionate and acetate affect the energy metabolism and inflammatory potential of dendritic epidermal T cells (DETC), the innate resident skin γδ T cell population. Using the Seahorse™ technology, we measured glycolysis and oxidative phosphorylation (OXPHOS) in a murine DETC cell line, 7-17, upon TCR-stimulation by CD3/CD28 crosslinking, with or without SCFA addition. TCR engagement resulted in a change of the ratio glycolysis/OXPHOS. A similar metabolic shift has been described for activated CD4 T cells. Addition of 5 mM SCFA, in particular butyrate, antagonized the effect. Stimulated DETC secrete cytokines, e.g. the pro-inflammatory cytokine interferon-gamma (IFNγ), and thereby regulate skin homeostasis. Addition of butyrate and propionate to the cultures at non-toxic concentrations decreased secretion of IFNγ by DETC and increased the expression of the immunoregulatory surface receptor CD69. We hypothesize that SCFA can dampen the inflammatory activity of DETC., (Copyright © 2020 Häselbarth et al.)

Published
2020
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30. The adipokine sFRP4 induces insulin resistance and lipogenesis in the liver.

Author

Hörbelt T, Knebel B, Fahlbusch P, Barbosa D, de Wiza DH, Van de Velde F, Van Nieuwenhove Y, Lapauw B, Thoresen GH, Al-Hasani H, Müller-Wieland D, Ouwens DM, and Kotzka J

Subjects
Adipose Tissue, White, Adult, Animals, Diabetes Mellitus, Type 2 metabolism, Disease Models, Animal, Fatty Acids metabolism, Female, Forkhead Box Protein O1 metabolism, Gene Expression Regulation, Gluconeogenesis, Hepatocytes metabolism, Humans, Insulin metabolism, Insulin Receptor Substrate Proteins metabolism, Male, Mice, Mice, Inbred C57BL, Middle Aged, Muscle Fibers, Skeletal metabolism, Non-alcoholic Fatty Liver Disease metabolism, Obesity metabolism, Proto-Oncogene Proteins genetics, Signal Transduction, Sterol Regulatory Element Binding Protein 1, Triglycerides metabolism, Adipokines metabolism, Insulin Resistance physiology, Lipogenesis physiology, Liver metabolism, Proto-Oncogene Proteins metabolism
Abstract

Secreted frizzled-related protein (sFRP) 4 is an adipokine with increased expression in white adipose tissue from obese subjects with type 2 diabetes and non-alcoholic fatty liver disease (NAFLD). Yet, it is unknown whether sFRP4 action contributes to the development of these pathologies. Here, we determined whether sFRP4 expression in visceral fat associates with NAFLD and whether it directly interferes with insulin action and lipid and glucose metabolism in primary hepatocytes and myotubes. The association of sFRP4 with clinical measures was investigated in obese men with or without type 2 diabetes and with or without biopsy-proven NAFLD. To determine the impact of sFRP4 on metabolic parameters, primary human myotubes (hSkMC), or primary hepatocytes from metabolic healthy C57Bl6 and from systemic insulin-resistant mice, i.e. aP2-SREBP-1c, were used. Gene expression of sFRP4 in visceral fat from obese men associated with insulin sensitivity, triglycerides and NAFLD. In C57Bl6 hepatocytes, sFRP4 disturbed insulin action. Specifically, sFRP4 decreased the abundance of IRS1 and FoxO1 together with impaired insulin-mediated activation of Akt-signalling and glycogen synthesis and a reduced suppression of gluconeogenesis by insulin. Moreover, sFRP4 enhanced insulin-stimulated hepatic de novo lipogenesis (DNL). In hSkMC, sFRP4 induced glycolysis rather than inhibiting insulin signalling. Finally, in hepatocytes from aP2-SREBP-1c mice, sFRP4 potentiates existing insulin resistance. Collectively, we show that sFRP4 interferes with hepatocyte insulin action. Physiologically, sFRP4 promotes DNL in hepatocytes and glycolysis in myotubes. These sFRP4-mediated responses may result in a vicious cycle, in which enhanced rates of DNL and glycolysis aggravate hepatic lipid accumulation and insulin resistance., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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31. Increased Glycolysis and Higher Lactate Production in Hyperglycemic Myotubes.

Author

Lund J, Ouwens DM, Wettergreen M, Bakke SS, Thoresen GH, and Aas V

Subjects
Adult, Cells, Cultured, Female, Healthy Volunteers, Humans, Male, Young Adult, Glycolysis, Hyperglycemia metabolism, Lactic Acid biosynthesis, Muscle Fibers, Skeletal metabolism
Abstract

Previous studies have shown that chronic hyperglycemia impairs glucose and fatty acid oxidation in cultured human myotubes. To further study the hyperglycemia-induced suppression of oxidation, lactate oxidation, mitochondrial function and glycolytic rate were evaluated. Further, we examined the intracellular content of reactive oxygen species (ROS), production of lactate and conducted pathway-ANOVA analysis on microarray data. In addition, the roles of the pentose phosphate pathway (PPP) and the hexosamine pathway were evaluated. Lactic acid oxidation was suppressed in hyperglycemic versus normoglycaemic myotubes. No changes in mitochondrial function or ROS concentration were observed. Pathway-ANOVA analysis indicated several upregulated pathways in hyperglycemic cells, including glycolysis and PPP. Functional studies showed that glycolysis and lactate production were higher in hyperglycemic than normoglycaemic cells. However, there were no indications of involvement of PPP or the hexosamine pathway. In conclusion, hyperglycemia reduced substrate oxidation while increasing glycolysis and lactate production in cultured human myotubes.

Published
2019
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32. Impact of hyperinsulinemia and hyperglycemia on valvular interstitial cells - A link between aortic heart valve degeneration and type 2 diabetes.

Author

Selig JI, Ouwens DM, Raschke S, Thoresen GH, Fischer JW, Lichtenberg A, Akhyari P, and Barth M

Subjects
Animals, Aortic Valve cytology, Aortic Valve metabolism, Aortic Valve Stenosis etiology, Cell Proliferation drug effects, Cells, Cultured, Diabetes Mellitus, Type 2 complications, Glucose metabolism, Glucose Transporter Type 1 metabolism, Glycogen Synthase Kinase 3 metabolism, Glycolysis, Hyperglycemia pathology, Hyperinsulinism pathology, Insulin pharmacology, Mitochondria metabolism, Phosphorylation, Proto-Oncogene Proteins c-akt metabolism, Receptor, Insulin metabolism, Sheep, Aortic Valve Stenosis pathology, Diabetes Mellitus, Type 2 pathology, Hyperglycemia metabolism, Hyperinsulinism metabolism
Abstract

Type 2 diabetes is a known risk factor for cardiovascular diseases and is associated with an increased risk to develop aortic heart valve degeneration. Nevertheless, molecular mechanisms leading to the pathogenesis of valve degeneration in the context of diabetes are still not clear. Hence, we hypothesized that classical key factors of type 2 diabetes, hyperinsulinemia and hyperglycemia, may affect signaling, metabolism and degenerative processes of valvular interstitial cells (VIC), the main cell type of heart valves. Therefore, VIC were derived from sheep and were treated with hyperinsulinemia, hyperglycemia and the combination of both. The presence of insulin receptors was shown and insulin led to increased proliferation of the cells, whereas hyperglycemia alone showed no effect. Disturbed insulin response was shown by impaired insulin signaling, i.e. by decreased phosphorylation of Akt/GSK-3α/β pathway. Analysis of glucose transporter expression revealed absence of glucose transporter 4 with glucose transporter 1 being the predominantly expressed transporter. Glucose uptake was not impaired by disturbed insulin response, but was increased by hyperinsulinemia and was decreased by hyperglycemia. Analyses of glycolysis and mitochondrial respiration revealed that VIC react with increased activity to hyperinsulinemia or hyperglycemia, but not to the combination of both. VIC do not show morphological changes and do not acquire an osteogenic phenotype by hyperinsulinemia or hyperglycemia. However, the treatment leads to increased collagen type 1 and decreased α-smooth muscle actin expression. This work implicates a possible role of diabetes in early phases of the degeneration of aortic heart valves., (Copyright © 2019 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2019
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33. Sfrp5 increases glucose-stimulated insulin secretion in the rat pancreatic beta cell line INS-1E.

Author

Carstensen-Kirberg M, Röhrig K, Niersmann C, Ouwens DM, Belgardt BF, Roden M, and Herder C

Subjects
Animals, Blood Glucose metabolism, Cell Line, Cell Proliferation, Cell Survival, Cyclin B1 metabolism, MAP Kinase Kinase 4 metabolism, Phosphorylation, RNA, Messenger metabolism, Rats, Signal Transduction, Wnt Proteins metabolism, Wnt Signaling Pathway, Adipokines metabolism, Glucose metabolism, Insulin metabolism, Insulin Secretion, Insulin-Secreting Cells drug effects
Abstract

Previous studies reported that secreted frizzled-related protein-5 (Sfrp5) decreases beta cell proliferation and increases fasting insulin levels, but studies on direct effects of Sfrp5 on insulin secretion and its underlying mechanisms are missing. This study examined effects of Sfrp5 on (i) beta cell viability and proliferation, (ii) basal and glucose-stimulated insulin secretion and (iii) canonical and non-canonical Wnt signalling pathways. We incubated rat INS-1E cells with 0.1, 1 or 5 μg/ml recombinant Sfrp5 for 24h. We measured basal and glucose-stimulated insulin secretion at glucose concentrations of 2.5 and 20 mmol/l. Phosphorylated and total protein content as well as mRNA levels of markers of cell proliferation, canonical and non-canonical Wnt signalling pathways were examined using Western blotting and real-time PCR. Differences between treatments were analysed by repeated measurement one-way ANOVA or Friedman's test followed by correction for multiple testing using the Benjamini-Hochberg procedure. At 5 μg/ml, Sfrp5 reduced mRNA levels of cyclin-B1 by 25% (p<0.05). At 1 and 5 μg/ml, Sfrp5 increased glucose-stimulated insulin secretion by 24% and by 34% (both p<0.05), respectively, but had no impact on basal insulin secretion. Sfrp5 reduced the phosphorylation of the splicing forms p46 and p54 of JNK by 39% (p<0.01) and 49% (p<0.05), respectively. In conclusion, Sfrp5 reduced markers of cell proliferation, but increased in parallel dose-dependently glucose-stimulated insulin secretion in INS-1E cells. This effect is likely mediated by reduced JNK activity, an important component of the non-canonical Wnt signalling pathway., Competing Interests: Christian Herder is Academic Editor with PLoS ONE. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published
2019
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34. Increased triacylglycerol - Fatty acid substrate cycling in human skeletal muscle cells exposed to eicosapentaenoic acid.

Author

Løvsletten NG, Bakke SS, Kase ET, Ouwens DM, Thoresen GH, and Rustan AC

Subjects
Adult, Diacylglycerol O-Acyltransferase, Diglycerides, Eicosapentaenoic Acid pharmacology, Energy Metabolism, Fatty Acids metabolism, Female, Humans, Lipid Metabolism, Lipolysis drug effects, Male, Muscle Fibers, Skeletal drug effects, Muscle Fibers, Skeletal physiology, Myoblasts, Oleic Acid metabolism, Oxidation-Reduction, Palmitic Acid metabolism, Primary Cell Culture, Substrate Cycling, Eicosapentaenoic Acid metabolism, Muscle, Skeletal drug effects, Triglycerides metabolism
Abstract

It has previously been shown that pretreatment of differentiated human skeletal muscle cells (myotubes) with eicosapentaenoic acid (EPA) promoted increased uptake of fatty acids and increased triacylglycerol accumulation, compared to pretreatment with oleic acid (OA) and palmitic acid (PA). The aim of the present study was to examine whether EPA could affect substrate cycling in human skeletal muscle cells by altering lipolysis rate of intracellular TAG and re-esterification of fatty acids. Fatty acid metabolism was studied in human myotubes using a mixture of fatty acids, consisting of radiolabelled oleic acid as tracer (14C-OA) together with EPA or PA. Co-incubation of myotubes with EPA increased cell-accumulation and incomplete fatty acid oxidation of 14C-OA compared to co-incubation with PA. Lipid distribution showed higher incorporation of 14C-OA into all cellular lipids after co-incubation with EPA relative to PA, with most markedly increases (3 to 4-fold) for diacylglycerol and triacylglycerol. Further, the increases in cellular lipids after co-incubation with EPA were accompanied by higher lipolysis and fatty acid re-esterification rate. Correspondingly, basal respiration, proton leak and maximal respiration were significantly increased in cells exposed to EPA compared to PA. Microarray and Gene Ontology (GO) enrichment analysis showed that EPA, related to PA, significantly changed i.e. the GO terms "Neutral lipid metabolic process" and "Regulation of lipid storage". Finally, an inhibitor of diacylglycerol acyltransferase 1 decreased the effect of EPA to promote fatty acid accumulation. In conclusion, incubation of human myotubes with EPA, compared to PA, increased processes of fatty acid turnover and oxidation suggesting that EPA may activate futile substrate cycling of fatty acids in human myotubes. Increased TAG-FA cycling may be involved in the potentially favourable effects of long-chain polyunsaturated n-3 fatty acids on skeletal muscle and whole-body energy metabolism., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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35. Assessment of circulating Wnt1 inducible signalling pathway protein 1 (WISP-1)/CCN4 as a novel biomarker of obesity.

Author

Tacke C, Aleksandrova K, Rehfeldt M, Murahovschi V, Markova M, Kemper M, Hornemann S, Kaiser U, Honig C, Gerbracht C, Kabisch S, Hörbelt T, Ouwens DM, Weickert MO, Boeing H, Pfeiffer AFH, Pivovarova O, and Rudovich N

Abstract

WNT1 inducible signaling pathway protein 1 (WISP-1/CCN4) is a novel adipokine, which is upregulated in obesity, and induces a pro-inflammatory response in macrophages in-vitro. Preclinical observations suggested WISP-1/CCN4 as a potential candidate for novel obesity therapy targeting adipose tissue inflammation. Whether circulating levels of WISP-1/CCN4 in humans are altered in obesity and/or type 2 diabetes (T2DM) and in the postprandial state, however, is unknown. This study assessed circulating WISP-1/CCN4 levels in a) paired liquid meal tests and hyperinsulinemic- euglycemic clamps (cohort I, n = 26), b) healthy individuals (cohort II, n = 207) and c) individuals with different stages of obesity and glucose tolerance (cohort III, n = 253). Circulating plasma and serum WISP-1/CCN4 concentrations were measured using a commercially available ELISA. WISP-1/CCN4 levels were not influenced by changes in insulin and/or glucose during the tests. In healthy individuals, WISP-1/CCN4 was detectable in 13% of plasma samples with the intraclass correlation coefficient of 0.93 (95% CI: 0.84-0.96) and in 58.1% of the serum samples in cohort III. Circulating WISP-1/CCN4 positively correlated with body mass index, body fat percentage, leptin and triglyceride levels, hip circumference and fatty liver index. No differences in WISP-1/CCN4 levels between individuals with normal glucose tolerance, impaired glucose tolerance and T2DM were found. The circulating concentrations of WISP-1/CCN4 showed no acute regulation in postprandial state and correlated with anthropometrical obesity markers and lipid profiles. In healthy individuals, WISP-1/CCN4 levels are more often below the detection limit. Thus, serum WISP-1/CCN4 levels may be used as a suitable biomarker of obesity.

Published
2018
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36. The novel adipokine WISP1 associates with insulin resistance and impairs insulin action in human myotubes and mouse hepatocytes.

Author

Hörbelt T, Tacke C, Markova M, Herzfeld de Wiza D, Van de Velde F, Bekaert M, Van Nieuwenhove Y, Hornemann S, Rödiger M, Seebeck N, Friedl E, Jonas W, Thoresen GH, Kuss O, Rosenthal A, Lange V, Pfeiffer AFH, Schürmann A, Lapauw B, Rudovich N, Pivovarova O, and Ouwens DM

Subjects
Animals, Blood Glucose metabolism, CCN Intercellular Signaling Proteins blood, Enzyme-Linked Immunosorbent Assay, Humans, Intra-Abdominal Fat metabolism, Mice, Phosphorylation, Proto-Oncogene Proteins blood, Receptor, Insulin metabolism, Signal Transduction, CCN Intercellular Signaling Proteins metabolism, Hepatocytes metabolism, Insulin Resistance physiology, Muscle Fibers, Skeletal metabolism, Proto-Oncogene Proteins metabolism
Abstract

Aims/hypothesis: Wingless-type (Wnt) inducible signalling pathway protein-1 (WISP1) has been recently identified as a proinflammatory adipokine. We examined whether WISP1 expression and circulating levels are altered in type 2 diabetes and whether WISP1 affects insulin signalling in muscle cells and hepatocytes., Methods: Serum and visceral adipose tissue (VAT) biopsies, for analysis of circulating WISP1 levels by ELISA and WISP1 mRNA expression by real-time quantitative RT-PCR, were collected from normal-weight men (control group, n = 33) and obese men with (n = 46) and without type 2 diabetes (n = 56) undergoing surgery. Following incubation of primary human skeletal muscle cells (hSkMCs) and murine AML12 hepatocytes with WISP1 and insulin, insulin signalling was analysed by western blotting. The effect of WISP1 on insulin-stimulated glycogen synthesis and gluconeogenesis was investigated in hSkMCs and murine hepatocytes, respectively., Results: Circulating WISP1 levels were higher in obese men (independent of diabetes status) than in normal-weight men (mean [95% CI]: 70.8 [55.2, 86.4] ng/l vs 42.6 [28.5, 56.6] ng/l, respectively; p < 0.05). VAT WISP1 expression was 1.9-fold higher in obese men vs normal-weight men (p < 0.05). Circulating WISP1 levels were positively associated with blood glucose in the OGTT and circulating haem oxygenase-1 and negatively associated with adiponectin levels. In hSkMCs and AML12 hepatocytes, recombinant WISP1 impaired insulin action by inhibiting phosphorylation of insulin receptor, Akt and its substrates glycogen synthase kinase 3β, FOXO1 and p70S6 kinase, and inhibiting insulin-stimulated glycogen synthesis and suppression of gluconeogenic genes., Conclusions/interpretation: Circulating WISP1 levels and WISP1 expression in VAT are increased in obesity independent of glycaemic status. Furthermore, WISP1 impaired insulin signalling in muscle and liver cells.

Published
2018
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37. CDH13 abundance interferes with adipocyte differentiation and is a novel biomarker for adipose tissue health.

Author

Göddeke S, Knebel B, Fahlbusch P, Hörbelt T, Poschmann G, van de Velde F, Benninghoff T, Al-Hasani H, Jacob S, Van Nieuwenhove Y, Lapauw B, Lehr S, Ouwens DM, and Kotzka J

Subjects
Adipocytes metabolism, Adipogenesis drug effects, Adipogenesis physiology, Adipose Tissue metabolism, Adult, Animals, Biomarkers analysis, Biomarkers metabolism, Cadherins analysis, Cadherins genetics, Cadherins pharmacology, Cell Differentiation drug effects, Female, Humans, Male, Mice, Mice, Obese, Middle Aged, Obesity blood, Obesity physiopathology, RNA, Messenger analysis, RNA, Messenger genetics, RNA, Messenger metabolism, Adipocytes cytology, Adipose Tissue chemistry, Cadherins metabolism, Cell Differentiation physiology, Obesity metabolism
Abstract

Background: CDH13, an atypical member of the cadherin superfamily, has been identified in adipocyte secretomes of lean mouse models. CDH13 abundance differs in mouse models according to their susceptibility to develop metabolic disorders, but the role of CDH13 in adipose tissue is unknown., Methods: Secreted CDH13 protein levels and mRNA levels in visceral adipose tissue were determined in lean and obese mouse models. In vitro studies were performed in 3T3-L1 adipocytes to determine the role of CDH13 in adipocyte differentiation. The pathophysiological impact of visceral adipose tissue CDH13 mRNA and circulating CDH13 levels were determined in humans (normal-weight men n = 37, obese men n = 109 including n = 51 type 2 diabetes patients) and in obese patients (n = 14) pre- and post-metabolic surgery., Results: This study shows that in visceral adipose tissue CDH13 protein secretion and mRNA levels were decreased in obese mouse models. Mechanistically, CDH13 affects lipid metabolism during adipogenesis but not in mature adipocytes. CDH13 knockdown during adipogenesis reduced fatty acid uptake and lipid content in developing adipocytes. Furthermore, CDH13 depletion during adipogenesis lowered the induction of PPARγ and C/EBPα expression. These observations are of pathophysiological impact since visceral adipose tissue CDH13 mRNA and circulating CDH13 levels were decreased in obese men compared to normal-weight controls. Weight loss induced by bariatric surgery restored circulating CDH13 to levels found in normal-weight controls., Conclusions: CDH13 levels in adipose tissue and the circulation are affected by obesity in mouse models and humans and are restored by weight loss in humans. CDH13 interferes with the differentiation potential of adipocytes and therefore is a marker for plasticity of fat tissue that might reflect the health status of adipose tissue.

Published
2018
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38. High intensity interval training is associated with greater impact on physical fitness, insulin sensitivity and muscle mitochondrial content in males with overweight/obesity, as opposed to continuous endurance training: a randomized controlled trial.

Author

De Strijcker D, Lapauw B, Ouwens DM, Van de Velde D, Hansen D, Petrovic M, Cuvelier C, Tonoli C, and Calders P

Subjects
Adult, Body Composition physiology, Body Mass Index, Humans, Male, Middle Aged, Obesity physiopathology, Oxygen Consumption, Endurance Training, High-Intensity Interval Training, Insulin Resistance physiology, Mitochondria, Muscle physiology, Overweight physiopathology, Physical Fitness physiology
Abstract

Objectives: To evaluate the effect of high intensity training (HIT) on physical fitness, basal respiratory exchange ratio (bRER), insulin sensitivity and muscle histology in overweight/obese men compared to continuous aerobic training (CAT)., Material and Methods: 16 male participants with overweight/obesity (age: 42-57 years, body mass index: 28-36 kg/m2) were randomized to HIT (n=8) or CAT (n=8) for 10 weeks, twice a week. HIT was composed of 10 minutes high intensity, 10 minutes continuous aerobic, 10 minutes high intensity exercises. CAT was composed of three times 10 minutes continuous exercising. Changes in anthropometry, physical and metabolic fitness were evaluated. Muscle histology (mitochondria and lipid content) was evaluated by transmission electron microscopy (TEM)., Results: HIT showed a significant increase for peak VO2 (P=0.01), for insulin sensitivity (AUC glucose (P<0,001), AUC insulin (P<0,001), OGTT composite score (P=0.007)) and a significant decrease of bRER (P<0.001) compared to CAT. Muscle mitochondrial content was significantly increased after HIT at the subsarcolemmal (P=0.004 number and P=0.001 surface) as well as the intermyofibrillar site (P<0.001 number and P=0.001 surface)., Conclusion: High intensity training elicits stronger beneficial effects on physical fitness, basal RER, insulin sensitivity, and muscle mitochondrial content, as compared to continuous aerobic training.

Published
2018

39. Deletion of the RabGAP TBC1D1 Leads to Enhanced Insulin Secretion and Fatty Acid Oxidation in Islets From Male Mice.

Author

Stermann T, Menzel F, Weidlich C, Jeruschke K, Weiss J, Altenhofen D, Benninghoff T, Pujol A, Bosch F, Rustenbeck I, Ouwens DM, Thoresen GH, de Wendt C, Lebek S, Schallschmidt T, Kragl M, Lammert E, Chadt A, and Al-Hasani H

Subjects
Animals, GTPase-Activating Proteins genetics, Insulin-Secreting Cells metabolism, Islets of Langerhans metabolism, Male, Mice, Mice, Knockout, Fatty Acids metabolism, GTPase-Activating Proteins metabolism, Insulin metabolism, Islets of Langerhans physiology, Lipid Metabolism genetics
Abstract

The Rab guanosine triphosphatase-activating protein (RabGAP) TBC1D1 has been shown to be a key regulator of glucose and lipid metabolism in skeletal muscle. Its function in pancreatic islets, however, is not yet fully understood. Here, we aimed to clarify the specific impact of TBC1D1 on insulin secretion and substrate use in pancreatic islets. We analyzed the dynamics of glucose-stimulated insulin secretion (GSIS) and lipid metabolism in isolated islets from Tbc1d1-deficient (D1KO) mice. To further investigate the underlying cellular mechanisms, we conducted pharmacological studies in these islets. In addition, we determined morphology and number of both pancreatic islets and insulin vesicles in β-cells using light and transmission electron microscopy. Isolated pancreatic islets from D1KO mice exhibited substantially increased GSIS compared with wild-type (WT) controls. This was attributed to both enhanced first and second phase of insulin secretion, and this enhanced secretion persisted during repetitive glucose stimuli. Studies with sulfonylureas or KCl in isolated islets demonstrated that TBC1D1 exerts its function via a signaling pathway at the level of membrane depolarization. In line, ultrastructural analysis of isolated pancreatic islets revealed both higher insulin-granule density and number of docked granules in β-cells from D1KO mice compared with WT controls. Like in skeletal muscle, lipid use in isolated islets was enhanced upon D1KO, presumably as a result of a higher mitochondrial fission rate and/or higher mitochondrial activity. Our results clearly demonstrate a dual role of TBC1D1 in controlling substrate metabolism of the pancreatic islet.

Published
2018
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40. CBF1 is clinically prognostic and serves as a target to block cellular invasion and chemoresistance of EMT-like glioblastoma cells.

Author

Maciaczyk D, Picard D, Zhao L, Koch K, Herrera-Rios D, Li G, Marquardt V, Pauck D, Hoerbelt T, Zhang W, Ouwens DM, Remke M, Jiang T, Steiger HJ, Maciaczyk J, and Kahlert UD

Subjects
Antineoplastic Agents, Alkylating therapeutic use, Blotting, Western, Brain Neoplasms drug therapy, Brain Neoplasms metabolism, Brain Neoplasms mortality, Cell Line, Tumor, Cell Survival, Computer Simulation, Dacarbazine analogs & derivatives, Dacarbazine therapeutic use, Databases, Factual, Epithelial-Mesenchymal Transition genetics, Glioblastoma drug therapy, Glioblastoma metabolism, Glioblastoma mortality, Glycolysis genetics, Humans, Immunoglobulin J Recombination Signal Sequence-Binding Protein metabolism, Isocitrate Dehydrogenase genetics, Mutation, Neoplasm Invasiveness genetics, Neoplastic Stem Cells metabolism, Prognosis, RNA, Messenger metabolism, Temozolomide, Zinc Finger E-box-Binding Homeobox 1 metabolism, Brain Neoplasms genetics, Drug Resistance, Neoplasm genetics, Glioblastoma genetics, Immunoglobulin J Recombination Signal Sequence-Binding Protein genetics, Tumor Hypoxia genetics
Abstract

Background: Glioblastoma is the most common and most lethal primary brain cancer. CBF1 (also known as Recombination signal Binding Protein for immunoglobulin kappa J, RBPJ) is the cardinal transcriptional regulator of the Notch signalling network and has been shown to promote cancer stem-like cells (CSCs) in glioblastoma. Recent studies suggest that some of the malignant properties of CSCs are mediated through the activation of pro-invasive programme of epithelial-to-mesenchymal transition (EMT). Little is known whether CBF1 is involved in the EMT-like phenotype of glioma cells., Methods: In a collection of GBM neurosphere lines, we genetically inhibited CBF1 and investigated the consequences on EMT-related properties, including in vitro invasiveness by Boyden chambers assay, chemoresistance using a clinical drug library screen and glycolytic metabolism assessing live-cell extracellular acidification rate. We also compared CBF1 expression in cells exposed to low and high oxygen tension. In silico analysis in large-scale Western and Eastern patient cohorts investigated the clinical prognostic value of CBF1 expression in low- and high-grade glioma as well as medulloblastoma., Results: Mean CBF1 expression is significantly increased in isocitrate dehydrogenase 1 (IDH1) R132H mutant glioblastoma and serves as prognostic marker for prolonged overall survival in brain tumours, particularly after therapy with temozolomide. Hypoxic regions of glioblastoma have higher CBF1 activation and exposure to low oxygen can induce its expression in glioma cells in vitro. CBF1 inhibition blocks EMT activators such as zinc finger E-box-binding homeobox 1 (ZEB1) and significantly reduces cellular invasion and resistance to clinically approved anticancer drugs. Moreover, we indicate that CBF1 inhibition can impede cellular glycolysis., Conclusions: Mean CBF1 activation in bulk tumour samples serves as a clinical predictive biomarker in brain cancers but its intratumoral and intertumoral expression is highly heterogeneous. Microenvironmental changes such as hypoxia can stimulate the activation of CBF1 in glioblastoma. CBF1 blockade can suppress glioblastoma invasion in vitro in particular in cells undergone EMT such as those found in the hypoxic niche. Targeting CBF1 can be an effective anti-EMT therapy to impede invasive properties and chemosensitivity in those cells.

Published
2017
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41. Soluble CD14 inhibits contractile function and insulin action in primary adult rat cardiomyocytes.

Author

Overhagen S, Blumensatt M, Fahlbusch P, Herzfeld de Wiza D, Müller H, Maxhera B, Akhyari P, and Ouwens DM

Subjects
Animals, Calcium metabolism, Cells, Cultured, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 metabolism, Human Umbilical Vein Endothelial Cells, Humans, Insulin Resistance, Male, Phosphorylation, Rats, Rats, Inbred Lew, p38 Mitogen-Activated Protein Kinases metabolism, Insulin metabolism, Lipopolysaccharide Receptors metabolism, Myocardial Contraction, Myocytes, Cardiac metabolism
Abstract

Epicardial adipose tissue (EAT) from patients with type 2 diabetes (T2D) is characterized by monocyte infiltrations and displays an elevated release of the monocyte marker soluble cluster of differentiation 14 (sCD14) versus EAT from patients without T2D. We propose that an increased abundance of sCD14 in EAT from patients with T2D may impair the function and insulin sensitivity of the adjacent cardiomyocytes. To examine this, primary adult rat cardiomyocytes were incubated with increasing concentrations of sCD14 in the presence and absence of the co-receptor lipopolysaccharide (LPS), and analyzed for effects on determinants of contractile function, activation of inflammation signalling and insulin action. Exposing cardiomyocytes to sCD14 increased the phosphorylation of the stress kinases p38 and extracellular-signal regulated kinase (ERK). In contrast, insulin-mediated phosphorylation of Akt on Thr308 and Ser473 was inhibited. Furthermore, sCD14 impaired sarcomere shortening and cytosolic Ca 2+ -fluxes. All responses were concentration-dependent and became significant at 1ng/ml sCD14. LPS, either alone or in complex with sCD14, did not affect contractile function or the activation of stress kinases and insulin signalling pathways. Similar data on protein phosphorylation were obtained when exposing human umbilical vein endothelial cells to sCD14. Finally, pharmacological inhibition of p38 reversed the detrimental effects of sCD14 on contractile function, but not on sCD14-induced insulin resistance. Collectively, these data show that sCD14 impairs the function and insulin sensitivity of cardiomyocytes, suggesting that an enhanced sCD14 release from EAT in patients with T2D may contribute to the pathogenesis of diabetes-related cardiometabolic complications., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2017
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42. Secretory products from epicardial adipose tissue from patients with type 2 diabetes impair mitochondrial β-oxidation in cardiomyocytes via activation of the cardiac renin-angiotensin system and induction of miR-208a.

Author

Blumensatt M, Fahlbusch P, Hilgers R, Bekaert M, Herzfeld de Wiza D, Akhyari P, Ruige JB, and Ouwens DM

Subjects
Animals, Blotting, Western, Culture Media, Conditioned pharmacology, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 metabolism, Gene Expression Profiling, Humans, Mice, Mitochondria metabolism, Myocytes, Cardiac drug effects, Oxidation-Reduction, Pericardium cytology, Polymerase Chain Reaction, Rats, Rats, Inbred Lew, Renin-Angiotensin System drug effects, Transcriptome, Adipose Tissue metabolism, Diabetic Cardiomyopathies physiopathology, MicroRNAs biosynthesis, Myocytes, Cardiac metabolism, Renin-Angiotensin System physiology
Abstract

Secretory products from epicardial adipose tissue (EAT) from patients with type 2 diabetes (T2D) impair cardiomyocyte function. These changes associate with alterations in miRNA expression, including the induction of miR-208a. Recent studies suggest that activation of the cardiac-specific renin-angiotensin system (RAS) may affect cardiac energy metabolism via induction of miR-208a. This study investigated whether cardiomyocyte dysfunction induced by conditioned media (CM) from EAT-T2D involves activation of the RAS/miR-208a pathway. Therefore, primary adult rat cardiomyocytes were incubated with CM generated from EAT biopsies from patients with T2D and without T2D (ND). Exposing cardiomyocytes to CM-EAT-T2D reduced sarcomere shortening and increased miR-208a expression versus cells exposed to CM-EAT-ND or control medium. The angiotensin II receptor type 1 (AGTR1) antagonist losartan reversed these effects. Accordingly, incubation with angiotensin II (Ang II) reduced sarcomere shortening, and lowered palmitate-induced mitochondrial respiration and carnitine palmitoyltransferase 1c (CPT1c) expression in cardiomyocytes. Locked-nucleic-acid-mediated inhibition of miR-208a function reversed the detrimental effects induced by Ang II. Interestingly, Ang II levels in CM-EAT-T2D were increased by 2.6-fold after culture with cardiomyocytes. The paracrine activation of the cardiac-specific RAS by CM-EAT-T2D was corroborated by increases in the expression of AGTR1 and renin, as well as a reduction in angiotensin-converting enzyme 2 levels. Collectively, these data show that secretory products from EAT-T2D impair cardiomyocyte contractile function and mitochondrial β-oxidation via activation of the cardiac-specific RAS system and induction of miR-208a, and suggest that alterations in the secretory profile of EAT may contribute to the development of diabetes-related heart disease.

Published
2017
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43. Reduced expression of chemerin in visceral adipose tissue associates with hepatic steatosis in patients with obesity.

Author

Bekaert M, Ouwens DM, Hörbelt T, Van de Velde F, Fahlbusch P, Herzfeld de Wiza D, Van Nieuwenhove Y, Calders P, Praet M, Hoorens A, Geerts A, Verhelst X, Kaufman JM, and Lapauw B

Subjects
Adipokines blood, Biomarkers blood, Enzyme-Linked Immunosorbent Assay, Female, Humans, Insulin Resistance, Male, Middle Aged, Severity of Illness Index, Chemokines blood, Intercellular Signaling Peptides and Proteins blood, Intra-Abdominal Fat metabolism, Non-alcoholic Fatty Liver Disease metabolism, Obesity metabolism
Abstract

Objective: This study aimed to evaluate whether circulating levels and/or visceral adipose tissue (VAT) expression of recently described adipokines associate with histopathological severity of nonalcoholic fatty liver disease (NAFLD), independent of obesity and insulin resistance., Methods: Serum levels of adiponectin, omentin, chemerin, monocyte chemoattractant protein-1, and secreted frizzled-related protein 4 were measured using enzyme-linked immunosorbent assay in 81 patients with obesity and NAFLD and 18 lean control subjects. Expression in VAT was measured using real-time PCR and histopathological grading was scored using the NAFLD activity score (NAS)., Results: When NAFLD patients were subdivided into groups with simple steatosis, borderline nonalcoholic steatohepatitis (NASH), and NASH, adiponectin serum levels and omentin expression were lower in NASH versus simple steatosis patients. Serum adiponectin was generally lower with higher histopathological grading. Chemerin VAT expression was negatively associated with NAS (r = -0.331, P = 0.022) and steatosis score (r = -0.335, P = 0.020), independent of age, BMI, and HOMA-IR. In addition, adjusting for chemerin VAT expression in a multivariate model explained part of the association between NAS and HOMA-IR., Conclusions: These findings suggest that lower VAT expression of chemerin in patients with obesity may be involved in the pathophysiology of hepatic steatosis, potentially by modulating the link between insulin resistance and NAFLD., (© 2016 The Authors Obesity published by Wiley Periodicals, Inc. on behalf of The Obesity Society (TOS).)

Published
2016
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44. Effect of the long-acting insulin analogues glargine and degludec on cardiomyocyte cell signalling and function.

Author

Hartmann T, Overhagen S, Ouwens DM, Raschke S, Wohlfart P, Tennagels N, Wronkowitz N, and Eckel J

Subjects
Animals, Diabetes Mellitus, Type 1 metabolism, Hypoglycemia metabolism, Mice, Myocytes, Cardiac metabolism, Rats, Receptor, Insulin metabolism, Blood Glucose drug effects, Hypoglycemic Agents pharmacology, Insulin Glargine pharmacology, Insulin, Long-Acting pharmacology, Myocytes, Cardiac drug effects, Signal Transduction drug effects
Abstract

Background: The effects of insulin on cardiomyocytes, such as positive inotropic action and glucose uptake are well described. However, in vitro studies comparing long-acting insulin analogues with regard to cardiomyocyte signalling and function have not been systematically conducted., Methods: Insulin receptor (IR) binding was assessed using membrane embedded and solubilised IR preparations. Insulin signalling was analysed in adult rat ventricular myocytes (ARVM) and HL-1 cardiac cells. Inotropic effects were examined in ARVM and the contribution of Akt to this effect was assessed by specific inhibition with triciribine. Furthermore, beating-rate in Cor.4U(®) human cardiomyocytes, glucose uptake in HL-1 cells, and prevention from H2O2 induced caspase 3/7 activation in cardiac cells overexpressing the human insulin receptor (H9c2-E2) were analysed. One-way ANOVA was performed to determine significance between conditions., Results: Insulin degludec showed significant lower IR affinity in membrane embedded IR preparations. In HL-1 cardiomyocytes, stimulation with insulin degludec resulted in a lower Akt(Ser(473)) and Akt(Thr(308)) phosphorylation compared to insulin, insulin glargine and its active metabolite M1 after 5- and 10-min incubation. After 60-min treatment, phosphorylation of Akt was comparable for all insulin analogues. Stimulation of glucose uptake in HL-1 cells was increased by 40-60 %, with a similar result for all analogues. Incubation of electrically paced ARVM resulted for all insulins in a significantly increased sarcomere shortening, contractility- and relaxation-velocity. This positive inotropic effect of all insulins was Akt dependent. Additionally, in Cor.4U(®) cardiomyocytes a 10-20 % increased beating-rate was detected for all insulins, with slower onset of action in cells treated with insulin degludec. H9c2-E2 cells challenged with H2O2 showed a fivefold increase in caspase 3/7 activation, which could be abrogated by all insulins used., Conclusions: In conclusion, we compared for the first time the signalling and functional impact of the long-acting insulin analogues insulin glargine and insulin degludec in cardiomyocyte cell models. We demonstrated similar efficacy under steady-state conditions relative to regular insulin in functional endpoint experiments. However, it remains to be shown how these results translate to the in vivo situation.

Published
2016
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45. Low serum omentin levels in the elderly population with Type 2 diabetes and polyneuropathy.

Author

Herder C, Bongaerts BW, Ouwens DM, Rathmann W, Heier M, Carstensen-Kirberg M, Koenig W, Thorand B, Roden M, Meisinger C, and Ziegler D

Subjects
Adiponectin blood, Aged, Aged, 80 and over, Biomarkers blood, Cohort Studies, Cross-Sectional Studies, Diabetic Neuropathies epidemiology, Female, Follow-Up Studies, GPI-Linked Proteins blood, Germany epidemiology, Health Surveys, Humans, Male, Polyneuropathies complications, Polyneuropathies epidemiology, Risk Factors, Tumor Necrosis Factor-alpha blood, Aging, Cytokines blood, Diabetes Mellitus, Type 2 complications, Diabetic Neuropathies blood, Down-Regulation, Lectins blood, Polyneuropathies blood
Abstract

Aims: To investigate the hypothesis that high serum levels of omentin, an adipokine with anti-inflammatory, insulin-sensitizing and cardioprotective properties, may be related to a lower risk of diabetic sensorimotor polyneuropathy., Methods: The association between serum omentin level and polyneuropathy was estimated in people aged 61-82 years with Type 2 diabetes (47 with and 168 without polyneuropathy) from the population-based KORA F4 study. The presence of clinical diabetic sensorimotor polyneuropathy was defined as bilateral impairment of foot vibration perception and/or foot pressure sensation. Omentin levels were determined by enzyme-linked immunosorbent assay., Results: Serum omentin level was inversely associated with polyneuropathy after adjustment for age, sex, height, waist circumference, hypertension, total cholesterol, smoking, alcohol intake and physical activity [odds ratio 0.45 (95% CI 0.21-0.98); P = 0.043]. Although omentin was positively correlated with adiponectin (r = 0.55, P < 0.0001) and inversely with tumour necrosis factor-α (r = -0.30, P = 0.019), additional adjustment for adiponectin and tumour necrosis factor-α had little impact on the association., Conclusions: Serum levels of omentin are reduced in people with Type 2 diabetes and diabetic sensorimotor polyneuropathy, independently of established risk factors of polyneuropathy. This association is only partially explained by biomarkers of subclinical inflammation., (© 2015 The Authors. Diabetic Medicine © 2015 Diabetes UK.)

Published
2015
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46. Determinants of testosterone levels in human male obesity.

Author

Bekaert M, Van Nieuwenhove Y, Calders P, Cuvelier CA, Batens AH, Kaufman JM, Ouwens DM, and Ruige JB

Subjects
Adult, Comorbidity, Diabetes Mellitus, Type 2 epidemiology, Gastric Bypass, Humans, Male, Middle Aged, Obesity epidemiology, Obesity, Morbid blood, Obesity, Morbid epidemiology, Subcutaneous Fat cytology, Aromatase metabolism, Diabetes Mellitus, Type 2 blood, Obesity blood, Subcutaneous Fat metabolism, Testosterone blood
Abstract

Testosterone (T) levels are decreased in obese men, but the underlying causes are incompletely understood. Our objective was to explore the relation between low (free) T levels and male obesity, by evaluating metabolic parameters, subcutaneous adipose tissue (SAT) aromatase expression, and parameters of the hypothalamic-pituitary-gonadal axis. We recruited 57 morbidly obese men [33 had type 2 diabetes (DM2)] and 25 normal-weight men undergoing abdominal surgery. Fourteen obese men also attended a follow-up, 2 years after gastric bypass surgery (GBS). Circulating T levels were quantified by LC-MS/MS, whereas free T levels were measured using serum equilibrium dialysis and sex hormone-binding globulin, luteinizing hormone, and follicle-stimulating hormone by immunoassay. SAT biopsies were used to determine adipocyte cell size and aromatase expression by real-time PCR. Total and free T levels were decreased in obese males versus controls, with a further decrease in obese men with DM2 versus obese men without DM2. There were no differences in aromatase expression among the study groups, and sex steroids did not correlate with aromatase expression. Pearson analysis revealed an inverse association between (free) T and SAT cell size, triglycerides, and HOMA-IR. Multivariate analysis confirmed the inverse association between (free) T and SAT cell size (β = -0.321, P = 0.037 and β = -0.441, P = 0.011, respectively), independent of age, triglycerides, HOMA-IR, obesity, or diabetes. T levels were normalized 2 years after GBS. These data suggest that SAT cell size rather than SAT aromatase expression or parameters of the hypothalamic-pituitary-gonadal axis is related to low T in male obesity, which points to adipose cell size-related metabolic changes as a major trigger in decreased T levels.

Published
2015
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47. Adiponectin may mediate the association between omentin, circulating lipids and insulin sensitivity: results from the KORA F4 study.

Author

Herder C, Ouwens DM, Carstensen M, Kowall B, Huth C, Meisinger C, Rathmann W, Roden M, and Thorand B

Subjects
Adiponectin blood, Aged, Cross-Sectional Studies, Diabetes Mellitus, Type 2 blood, Diabetes Mellitus, Type 2 etiology, Female, GPI-Linked Proteins blood, Germany epidemiology, Glucose Intolerance blood, Glucose Intolerance epidemiology, Humans, Male, Middle Aged, Obesity blood, Obesity epidemiology, Risk Factors, Adiponectin physiology, Cytokines blood, Insulin Resistance, Lectins blood, Lipids blood
Abstract

Objective: Reduced circulating omentin levels have been reported in obesity and type 2 diabetes, but data were mostly derived from univariate analyses in small study samples. This study aimed to investigate the relationship between omentin, abnormal glucose tolerance and related metabolic factors in a large population-based cross-sectional study., Design and Methods: Serum omentin was measured by ELISA in 1092 participants of the German KORA F4 survey (2006-2008). Associations between omentin serum levels, glucose tolerance (assessed with an oral glucose tolerance test) and diabetes-related factors were estimated using logistic and linear regression models respectively., Results: Serum levels of omentin were not related to categories of glucose tolerance. However, serum omentin was positively associated with whole-body insulin sensitivity index (ISI (composite)) and HDL cholesterol and showed inverse associations with 2-h post-load glucose, fasting insulin, homeostasis model assessment-estimated insulin resistance, BMI and triglycerides (all P≤0.03 after adjustment for age, sex and lifestyle factors). Further adjustment for BMI and/or serum lipids attenuated the associations with parameters of glucose metabolism, whereas adjustment for serum adiponectin virtually abolished all aforementioned associations. In contrast, adjustment for omentin had no effect on the positive association between adiponectin levels and ISI (composite)., Conclusions: The data from this large population-based cohort show that circulating omentin levels are associated with insulin sensitivity. Our observations further suggest that omentin acts via upregulation of adiponectin, which in turn affects lipid metabolism and thereby also indirectly enhances insulin sensitivity, but mechanistic studies are required to corroborate this hypothesis., (© 2015 European Society of Endocrinology.)

Published
2015
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48. Identification of novel adipokines differential regulated in C57BL/Ks and C57BL/6.

Author

Hartwig S, Goeddeke S, Poschmann G, Dicken HD, Jacob S, Nitzgen U, Passlack W, Stühler K, Ouwens DM, Al-Hasani H, Knebel B, Kotzka J, and Lehr S

Subjects
Adiponectin metabolism, Animals, Intra-Abdominal Fat metabolism, Male, Mice, Mice, Inbred C57BL, Species Specificity, Adipokines metabolism, Proteomics
Abstract

Visceral adiposity is associated with metabolic disorders, but little is known on the underlying pathophysiological mechanism. One possible link might be the release of various signalling and mediator proteins, named adipokines. Our hypothesis was that dependent on genetic background factors are released which might trigger a primary disease susceptibility. This study characterizes the adipokines released from visceral adipose tissue from two metabolic healthy mouse strains, i.e. C57BL/Ks (BKS) and C57BL/6 (C57), of which the former genetic background is more sensitive to develop diabetes following metabolic challenge. Using liquid chromatography (LC)-electrospray ionization (ESI)-MS/MS, a reference map comprising 597 adipokines was generated (http://www.diabesityprot.org). Thirty-five adipokines, including six not previously described ones, were differentially released between the mouse strains. Most notable is the reduced release of the adiponectin-binding protein T-Cadherin (CAD13) in BKS mice. This observation highlights the importance of secretome profiling in unravelling the complex interplay between genetic diversity and lifestyle.

Published
2014
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49. Tissue-specific differences in the development of insulin resistance in a mouse model for type 1 diabetes.

Author

Jelenik T, Séquaris G, Kaul K, Ouwens DM, Phielix E, Kotzka J, Knebel B, Weiß J, Reinbeck AL, Janke L, Nowotny P, Partke HJ, Zhang D, Shulman GI, Szendroedi J, and Roden M

Subjects
Animals, Diabetes Mellitus, Type 2 blood, Disease Models, Animal, JNK Mitogen-Activated Protein Kinases metabolism, Lipid Peroxides metabolism, Liver metabolism, Mice, Prediabetic State metabolism, Protein Kinase C metabolism, alpha-2-HS-Glycoprotein metabolism, Diabetes Mellitus, Type 2 metabolism, Insulin Resistance physiology
Abstract

Although insulin resistance is known to underlie type 2 diabetes, its role in the development of type 1 diabetes has been gaining increasing interest. In a model of type 1 diabetes, the nonobese diabetic (NOD) mouse, we found that insulin resistance driven by lipid- and glucose-independent mechanisms is already present in the liver of prediabetic mice. Hepatic insulin resistance is associated with a transient rise in mitochondrial respiration followed by increased production of lipid peroxides and c-Jun N-terminal kinase activity. At the onset of diabetes, increased adipose tissue lipolysis promotes myocellular diacylglycerol accumulation. This is paralleled by increased myocellular protein kinase C θ activity and serum fetuin A levels. Muscle mitochondrial oxidative capacity is unchanged at the onset but decreases at later stages of diabetes. In conclusion, hepatic and muscle insulin resistance manifest at different stages and involve distinct cellular mechanisms during the development of diabetes in the NOD mouse., (© 2014 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.)

Published
2014
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50. Cerebrospinal fluid levels of Alzheimer's disease biomarkers in middle-aged patients with type 1 diabetes.

Author

Ouwens DM, van Duinkerken E, Schoonenboom SN, Herzfeld de Wiza D, Klein M, van Golen L, Pouwels PJ, Barkhof F, Moll AC, Snoek FJ, Teunissen CE, Scheltens P, and Diamant M

Subjects
Adult, Amyloid beta-Peptides metabolism, Cross-Sectional Studies, Genotype, Humans, Low Density Lipoprotein Receptor-Related Protein-1 metabolism, Macrophage Colony-Stimulating Factor metabolism, Middle Aged, Peptide Fragments metabolism, tau Proteins metabolism, Alzheimer Disease metabolism, Biomarkers cerebrospinal fluid, Diabetes Mellitus, Type 1 metabolism
Abstract

Aims/hypothesis: Type 1 diabetes is associated with moderate cognitive decline and cerebral alterations and may lead to an increased risk of dementia, including Alzheimer's disease. This study aimed to investigate the levels of risk markers for Alzheimer's disease in middle-aged patients with type 1 diabetes and controls, and their potential associations with cognitive and cerebral measures., Methods: Levels of β-amyloid (Aβ) 42, Tau, phosphorylated Tau (pTau), the soluble form of low-density lipoprotein receptor-related protein 1 (sLRP1) and macrophage colony-stimulating factor (MCSF) were quantified by ELISA in serum and cerebrospinal fluid (CSF) collected from 37 patients with type 1 diabetes and 15 controls. Associations between biomarkers and determinants of cognitive function and white matter integrity were assessed using hierarchical regression analysis controlling for age, HbA1c and estimated intelligence quotient (IQ)., Results: CSF levels of pTau, Aβ42 and LRP1 were higher in patients with type 1 diabetes than in controls (all p < 0.05). There was a trend towards increased Tau levels in patients with type 1 diabetes (p = 0.056), while CSF levels of MCSF were similar between patients with type 1 diabetes and controls. Regression analysis showed that elevated CSF sLRP1 levels were associated with better attention (β = 0.518; p = 0.002) and a better speed of information-processing (β = 0.368; p = 0.034), as well as increased integrity of the white matter of the right inferior fronto-occipital tract (β = 0.395; p = 0.022). Furthermore, elevated Tau levels were associated with decreased integrity of the white matter of right inferior fronto-occipital tract (β = -0.584; p = 0.002)., Conclusions/interpretation: CSF levels of biomarkers for Alzheimer's disease are altered in patients with type 1 diabetes compared with controls, but the observed profile does not match the profile characterising pre-Alzheimer's disease patients.

Published
2014
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