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1. Direct view of gate-tunable miniband dispersion in graphene superlattices near the magic twist angle

Author

Jiang, Zhihao, Lee, Dongkyu, Jones, Alfred J. H., Park, Youngju, Hsieh, Kimberly, Majchrzak, Paulina, Sahoo, Chakradhar, Nielsen, Thomas S., Watanabe, Kenji, Taniguchi, Takashi, Hofmann, Philip, Miwa, Jill A., Chen, Yong P., Jung, Jeil, and Ulstrup, Søren

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Superlattices from twisted graphene mono- and bi-layer systems give rise to on-demand many-body states such as Mott insulators and unconventional superconductors. These phenomena are ascribed to a combination of flat bands and strong Coulomb interactions. However, a comprehensive understanding is lacking because the low-energy band structure strongly changes when the electron filling is varied. Here, we gain direct access to the filling-dependent low energy bands of twisted bilayer graphene (TBG) and twisted double bilayer graphene (TDBG) by applying micro-focused angle-resolved photoemission spectroscopy to in situ gated devices. Our findings for the two systems are in stark contrast: The doping dependent dispersion for TBG can be described in a simple model, combining a filling-dependent rigid band shift with a many-body related bandwidth change. In TDBG, on the other hand, we find a complex behaviour of the low-energy bands, combining non-monotonous bandwidth changes and tuneable gap openings. Our work establishes the extent of electric field tunability of the low energy electronic states in twisted graphene superlattices and can serve to underpin the theoretical understanding of the resulting phenomena., Comment: 26 pages, 4 main figures and 7 supplementary figures

Published
2024

2. Oral supplementation of nicotinamide riboside alters intestinal microbial composition in rats and mice, but not humans

Author

Peluso, A. Augusto, Lundgaard, Agnete T., Babaei, Parizad, Mousovich-Neto, Felippe, Rocha, Andréa L., Damgaard, Mads V., Bak, Emilie G., Gnanasekaran, Thiyagarajan, Dollerup, Ole L., Trammell, Samuel A. J., Nielsen, Thomas S., Kern, Timo, Abild, Caroline B., Sulek, Karolina, Ma, Tao, Gerhart-Hines, Zach, Gillum, Matthew P., Arumugam, Manimozhiyan, Ørskov, Cathrine, McCloskey, Douglas, Jessen, Niels, Herrgård, Markus J., Mori, Marcelo A. S., and Treebak, Jonas T.

Published
2023
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3. Dynamic changes in DICER levels in adipose tissue control metabolic adaptations to exercise

Author

Brandão, Bruna B., Madsen, Søren, Rabiee, Atefeh, Oliverio, Matteo, Ruiz, Gabriel P., Ferrucci, Danilo L., Branquinho, Jéssica L., Razolli, Daniela, Pinto, Silas, Nielsen, Thomas S., Festuccia, William T., Martins, Adriano S., Guerra, Beatriz A., Knittel, Thiago L., Søgaard, Ditte, Larsen, Steen, Helge, Jørn W., Brandauer, Josef, Velloso, Lício A., Emanuelli, Brice, Kornfeld, Jan-Wilhelm, Kahn, Ronald, Vienberg, Sara G., Zierath, Juleen R., Treebak, Jonas T., and Mori, Marcelo A.

Published
2020

4. A common Greenlandic TBC1D4 variant confers muscle insulin resistance and type 2 diabetes

Author

Moltke, Ida, Grarup, Niels, Jørgensen, Marit E, Bjerregaard, Peter, Treebak, Jonas T, Fumagalli, Matteo, Korneliussen, Thorfinn S, Andersen, Marianne A, Nielsen, Thomas S, Krarup, Nikolaj T, Gjesing, Anette P, Zierath, Juleen R, Linneberg, Allan, Wu, Xueli, Sun, Guangqing, Jin, Xin, Al-Aama, Jumana, Wang, Jun, Borch-Johnsen, Knut, Pedersen, Oluf, Nielsen, Rasmus, Albrechtsen, Anders, and Hansen, Torben

Subjects
Biological Sciences, Genetics, Human Genome, Diabetes, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, Adult, Blood Glucose, Codon, Nonsense, Diabetes Mellitus, Type 2, GTPase-Activating Proteins, Gene Frequency, Genetic Variation, Genome-Wide Association Study, Genotype, Greenland, Humans, Insulin, Insulin Resistance, Middle Aged, Muscle, Skeletal, General Science & Technology
Abstract

The Greenlandic population, a small and historically isolated founder population comprising about 57,000 inhabitants, has experienced a dramatic increase in type 2 diabetes (T2D) prevalence during the past 25 years. Motivated by this, we performed association mapping of T2D-related quantitative traits in up to 2,575 Greenlandic individuals without known diabetes. Using array-based genotyping and exome sequencing, we discovered a nonsense p.Arg684Ter variant (in which arginine is replaced by a termination codon) in the gene TBC1D4 with an allele frequency of 17%. Here we show that homozygous carriers of this variant have markedly higher concentrations of plasma glucose (β = 3.8 mmol l(-1), P = 2.5 × 10(-35)) and serum insulin (β = 165 pmol l(-1), P = 1.5 × 10(-20)) 2 hours after an oral glucose load compared with individuals with other genotypes (both non-carriers and heterozygous carriers). Furthermore, homozygous carriers have marginally lower concentrations of fasting plasma glucose (β = -0.18 mmol l(-1), P = 1.1 × 10(-6)) and fasting serum insulin (β = -8.3 pmol l(-1), P = 0.0014), and their T2D risk is markedly increased (odds ratio (OR) = 10.3, P = 1.6 × 10(-24)). Heterozygous carriers have a moderately higher plasma glucose concentration 2 hours after an oral glucose load than non-carriers (β = 0.43 mmol l(-1), P = 5.3 × 10(-5)). Analyses of skeletal muscle biopsies showed lower messenger RNA and protein levels of the long isoform of TBC1D4, and lower muscle protein levels of the glucose transporter GLUT4, with increasing number of p.Arg684Ter alleles. These findings are concomitant with a severely decreased insulin-stimulated glucose uptake in muscle, leading to postprandial hyperglycaemia, impaired glucose tolerance and T2D. The observed effect sizes are several times larger than any previous findings in large-scale genome-wide association studies of these traits and constitute further proof of the value of conducting genetic association studies outside the traditional setting of large homogeneous populations.

Published
2014

5. Skeletal muscle O-GlcNAc transferase is important for muscle energy homeostasis and whole-body insulin sensitivity

Author

Shi, Hao, Munk, Alexander, Nielsen, Thomas S., Daughtry, Morgan R., Larsson, Louise, Li, Shize, Høyer, Kasper F., Geisler, Hannah W., Sulek, Karolina, Kjøbsted, Rasmus, Fisher, Taylor, Andersen, Marianne M., Shen, Zhengxing, Hansen, Ulrik K., England, Eric M., Cheng, Zhiyong, Højlund, Kurt, Wojtaszewski, Jørgen F.P., Yang, Xiaoyong, Hulver, Matthew W., Helm, Richard F., Treebak, Jonas T., and Gerrard, David E.

Published
2018
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8. NAMPT-dependent NAD + biosynthesis controls circadian metabolism in a tissue-specific manner

Author

Basse, Astrid L., primary, Nielsen, Karen N., additional, Karavaeva, Iuliia, additional, Ingerslev, Lars R., additional, Ma, Tao, additional, Havelund, Jesper F., additional, Nielsen, Thomas S., additional, Frost, Mikkel, additional, Peics, Julia, additional, Dalbram, Emilie, additional, Dall, Morten, additional, Zierath, Juleen R., additional, Barrès, Romain, additional, Færgeman, Nils J., additional, Treebak, Jonas T., additional, and Gerhart-Hines, Zachary, additional

Published
2023
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9. Oral supplementation of nicotinamide riboside alters intestinal microbial composition in rats and mice, but not humans

Author

Peluso, A Augusto, Lundgaard, Agnete T, Babaei, Parizad, Mousovich-Neto, Felippe, Rocha, Andréa L, Damgaard, Mads V, Bak, Emilie G, Gnanasekaran, Thiyagarajan, Dollerup, Ole L, Trammell, Samuel A J, Nielsen, Thomas S, Kern, Timo, Abild, Caroline B, Sulek, Karolina, Ma, Tao, Gerhart-Hines, Zach, Gillum, Matthew P, Arumugam, Manimozhiyan, Ørskov, Cathrine, McCloskey, Douglas, Jessen, Niels, Herrgård, Markus J, Mori, Marcelo A S, Treebak, Jonas T, Peluso, A Augusto, Lundgaard, Agnete T, Babaei, Parizad, Mousovich-Neto, Felippe, Rocha, Andréa L, Damgaard, Mads V, Bak, Emilie G, Gnanasekaran, Thiyagarajan, Dollerup, Ole L, Trammell, Samuel A J, Nielsen, Thomas S, Kern, Timo, Abild, Caroline B, Sulek, Karolina, Ma, Tao, Gerhart-Hines, Zach, Gillum, Matthew P, Arumugam, Manimozhiyan, Ørskov, Cathrine, McCloskey, Douglas, Jessen, Niels, Herrgård, Markus J, Mori, Marcelo A S, and Treebak, Jonas T

Abstract

The gut microbiota impacts systemic levels of multiple metabolites including NAD + precursors through diverse pathways. Nicotinamide riboside (NR) is an NAD + precursor capable of regulating mammalian cellular metabolism. Some bacterial families express the NR-specific transporter, PnuC. We hypothesized that dietary NR supplementation would modify the gut microbiota across intestinal sections. We determined the effects of 12 weeks of NR supplementation on the microbiota composition of intestinal segments of high-fat diet-fed (HFD) rats. We also explored the effects of 12 weeks of NR supplementation on the gut microbiota in humans and mice. In rats, NR reduced fat mass and tended to decrease body weight. Interestingly, NR increased fat and energy absorption but only in HFD-fed rats. Moreover, 16S rRNA gene sequencing analysis of intestinal and fecal samples revealed an increased abundance of species within Erysipelotrichaceae and Ruminococcaceae families in response to NR. PnuC-positive bacterial strains within these families showed an increased growth rate when supplemented with NR. The abundance of species within the Lachnospiraceae family decreased in response to HFD irrespective of NR. Alpha and beta diversity and bacterial composition of the human fecal microbiota were unaltered by NR, but in mice, the fecal abundance of species within Lachnospiraceae increased while abundances of Parasutterella and Bacteroides dorei species decreased in response to NR. In conclusion, oral NR altered the gut microbiota in rats and mice, but not in humans. In addition, NR attenuated body fat mass gain in rats, and increased fat and energy absorption in the HFD context.

Published
2023

10. NAMPT-dependent NAD+ biosynthesis controls circadian metabolism in a tissue-specific manner

Author

Basse, Astrid L, Nielsen, Karen N, Karavaeva, Iuliia, Ingerslev, Lars R., Ma, Tao, Havelund, Jesper F, Nielsen, Thomas S, Frost, Mikkel, Peics, Julia, Dalbram, Emilie, Dall, Morten, Zierath, Juleen R, Barrès, Romain, Færgeman, Nils J, Treebak, Jonas T, Gerhart-Hines, Zachary, Basse, Astrid L, Nielsen, Karen N, Karavaeva, Iuliia, Ingerslev, Lars R., Ma, Tao, Havelund, Jesper F, Nielsen, Thomas S, Frost, Mikkel, Peics, Julia, Dalbram, Emilie, Dall, Morten, Zierath, Juleen R, Barrès, Romain, Færgeman, Nils J, Treebak, Jonas T, and Gerhart-Hines, Zachary

Abstract

Molecular clocks in the periphery coordinate tissue-specific daily biorhythms by integrating input from the hypothalamic master clock and intracellular metabolic signals. One such key metabolic signal is the cellular concentration of NAD +, which oscillates along with its biosynthetic enzyme, nicotinamide phosphoribosyltransferase (NAMPT). NAD + levels feed back into the clock to influence rhythmicity of biological functions, yet whether this metabolic fine-tuning occurs ubiquitously across cell types and is a core clock feature is unknown. Here, we show that NAMPT-dependent control over the molecular clock varies substantially between tissues. Brown adipose tissue (BAT) requires NAMPT to sustain the amplitude of the core clock, whereas rhythmicity in white adipose tissue (WAT) is only moderately dependent on NAD + biosynthesis, and the skeletal muscle clock is completely refractory to loss of NAMPT. In BAT and WAT, NAMPT differentially orchestrates oscillation of clock-controlled gene networks and the diurnality of metabolite levels. NAMPT coordinates the rhythmicity of TCA cycle intermediates in BAT, but not in WAT, and loss of NAD + abolishes these oscillations similarly to high-fat diet-induced circadian disruption. Moreover, adipose NAMPT depletion improved the ability of animals to defend body temperature during cold stress but in a time-of-day-independent manner. Thus, our findings reveal that peripheral molecular clocks and metabolic biorhythms are shaped in a highly tissue-specific manner by NAMPT-dependent NAD + synthesis.

Published
2023

12. Introduction

Author

Nilsson, Kjell, Pauleit, Stephan, Bell, Simon, Aalbers, Carmen, Nielsen, Thomas S., Nilsson, Kjell, editor, Pauleit, Stephan, editor, Bell, Simon, editor, Aalbers, Carmen, editor, and Sick Nielsen, Thomas A., editor

Published
2013
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13. Dynamic interplay between Afadin S1795 phosphorylation and diet regulates glucose homeostasis in obese mice

Author

Tozzi, Marco, Brown, Erin L, Petersen, Patricia SS, Lundh, Morten, Isidor, Marie S, Plucińska, Kaja, Nielsen, Thomas S, Agueda‐Oyarzabal, Marina, Small, Lewin, Treebak, Jonas T., Emanuelli, Brice, Tozzi, Marco, Brown, Erin L, Petersen, Patricia SS, Lundh, Morten, Isidor, Marie S, Plucińska, Kaja, Nielsen, Thomas S, Agueda‐Oyarzabal, Marina, Small, Lewin, Treebak, Jonas T., and Emanuelli, Brice

Published
2022

14. Intravenous nicotinamide riboside elevates mouse skeletal muscle NAD+ without impacting respiratory capacity or insulin sensitivity

Author

Damgaard, Mads V., Nielsen, Thomas S., Basse, Astrid L., Chubanava, Sabina, Trost, Kajetan, Moritz, Thomas, Dellinger, Ryan W., Larsen, Steen, Treebak, Jonas T., Damgaard, Mads V., Nielsen, Thomas S., Basse, Astrid L., Chubanava, Sabina, Trost, Kajetan, Moritz, Thomas, Dellinger, Ryan W., Larsen, Steen, and Treebak, Jonas T.

Abstract

In clinical trials, oral supplementation with nicotinamide riboside (NR) fails to increase muscle mitochondrial respiratory capacity and insulin sensitivity but also does not increase muscle NAD+ levels. This study tests the feasibility of chronically elevating skeletal muscle NAD+ in mice and investigates the putative effects on mitochondrial respiratory capacity, insulin sensitivity, and gene expression. Accordingly, to improve bioavailability to skeletal muscle, we developed an experimental model for administering NR repeatedly through a jugular vein catheter. Mice on a Western diet were treated with various combinations of NR, pterostilbene (PT), and voluntary wheel running, but the metabolic effects of NR and PT treatment were modest. We conclude that the chronic elevation of skeletal muscle NAD+ by the intravenous injection of NR is possible but does not affect muscle respiratory capacity or insulin sensitivity in either sedentary or physically active mice. Our data have implications for NAD+ precursor supplementation regimens.

Published
2022

16. Hepatocyte-specific perturbation of NAD+ biosynthetic pathways in mice induces reversible nonalcoholic steatohepatitis–like phenotypes

Author

Dall, Morten, primary, Hassing, Anna S., additional, Niu, Lili, additional, Nielsen, Thomas S., additional, Ingerslev, Lars R., additional, Sulek, Karolina, additional, Trammell, Samuel A.J., additional, Gillum, Matthew P., additional, Barrès, Romain, additional, Larsen, Steen, additional, Poulsen, Steen S., additional, Mann, Matthias, additional, Ørskov, Cathrine, additional, and Treebak, Jonas T., additional

Published
2021
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17. Discovery of thymosin β4 as a human exerkine and growth factor

Author

Gonzalez-Franquesa, Alba, primary, Stocks, Ben, additional, Borg, Melissa L., additional, Kuefner, Michael, additional, Dalbram, Emilie, additional, Nielsen, Thomas S., additional, Agrawal, Ankita, additional, Pankratova, Stanislava, additional, Chibalin, Alexander V., additional, Karlsson, Håkan K. R., additional, Gheibi, Sevda, additional, Björnholm, Marie, additional, Jørgensen, Niklas Rye, additional, Clemmensen, Christoffer, additional, Hostrup, Morten, additional, Treebak, Jonas T., additional, Krook, Anna, additional, Zierath, Juleen R., additional, and Deshmukh, Atul S., additional

Published
2021
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18. Dynamic interplay between Afadin S1795 phosphorylation and diet regulates glucose homeostasis in obese mice

Author

Tozzi, Marco, primary, Brown, Erin L., additional, Petersen, Patricia S. S., additional, Lundh, Morten, additional, Isidor, Marie S., additional, Plucińska, Kaja, additional, Nielsen, Thomas S., additional, Agueda‐Oyarzabal, Marina, additional, Small, Lewin, additional, Treebak, Jonas T., additional, and Emanuelli, Brice, additional

Published
2021
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20. Hepatocyte-specific perturbation of NAD+ biosynthetic pathways in mice induces reversible nonalcoholic steatohepatitis-like phenotypes

Author

Dall, Morten, Hassing, Anna S., Niu, Lili, Nielsen, Thomas S., Ingerslev, Lars R., Sulek, Karolina, Trammell, Samuel A.J., Gillum, Matthew P., Barrès, Romain, Larsen, Steen, Poulsen, Steen S., Mann, Matthias, Ørskov, Cathrine, Treebak, Jonas T., Dall, Morten, Hassing, Anna S., Niu, Lili, Nielsen, Thomas S., Ingerslev, Lars R., Sulek, Karolina, Trammell, Samuel A.J., Gillum, Matthew P., Barrès, Romain, Larsen, Steen, Poulsen, Steen S., Mann, Matthias, Ørskov, Cathrine, and Treebak, Jonas T.

Abstract

Nicotinamide phosphoribosyltransferase (NAMPT) converts nicotinamide to NAD+. As low hepatic NAD+ levels have been linked to the development of nonalcoholic fatty liver disease, we hypothesized that ablation of hepatic Nampt would affect susceptibility to liver injury in response to diet-induced metabolic stress. Following 3 weeks on a low-methionine and choline-free 60% high-fat diet, hepatocyte-specific Nampt knockout (HNKO) mice accumulated less triglyceride than WT littermates but had increased histological scores for liver inflammation, necrosis, and fibrosis. Surprisingly, liver injury was also observed in HNKO mice on the purified control diet. This HNKO phenotype was associated with decreased abundance of mitochondrial proteins, especially proteins involved in oxidoreductase activity. High-resolution respirometry revealed lower respiratory capacity in purified control diet- fed HNKO liver. In addition, fibrotic area in HNKO liver sections correlated negatively with hepatic NAD+, and liver injury was prevented by supplementation with NAD+ precursors nicotinamide riboside and nicotinic acid. MS-based proteomic analysis revealed that nicotinamide riboside supplementation rescued hepatic levels of oxidoreductase and OXPHOS proteins. Finally, single-nucleus RNA-Seq showed that transcriptional changes in the HNKO liver mainly occurred in hepatocytes, and changes in the hepatocyte transcriptome were associated with liver necrosis. In conclusion, HNKO livers have reduced respiratory capacity, decreased abundance of mitochondrial proteins, and are susceptible to fibrosis because of low NAD+ levels. Our data suggest a critical threshold level of hepatic NAD+ that determines the predisposition to liver injury and supports that NAD+ precursor supplementation can prevent liver injury and nonalcoholic fatty liver disease progression.

Published
2021

22. Effects of GH in human muscle and fat

Author

Jargensen, Jens Otto Lunde, Rubeck, Kristine Z., Nielsen, Thomas S., Clasen, Berthil F.F., Vendelboe, Mikkel, Hafstrom, Thomas K., Madsen, Michael, and Lund, Sten

Subjects
Dextrose -- Physiological aspects -- Analysis, Diabetes -- Physiological aspects -- Analysis, Somatotropin -- Physiological aspects -- Analysis, Insulin resistance -- Physiological aspects -- Analysis, Fatty acids -- Physiological aspects -- Analysis, Glucose -- Physiological aspects -- Analysis, Glucose metabolism -- Physiological aspects -- Analysis, Muscles -- Physiological aspects -- Analysis, Health
Abstract

Skeletal muscle is the major constituent of lean body mass and a major determinant of energy expenditure both at rest and during physical activity. Growth hormone, in turn, influences muscle mass as well as energy expenditure. Growth hormone substitution in adults increases muscle mass by 5-10%, but part of the effect is attributed to rehydration rather than protein accretion. In addition, GH regulates substrate metabolism in muscle and in particular antagonizes insulin-stimulated glucose disposal. This effect is linked to increased free fatty acid (FFA) flux but the molecular mechanisms remain unclear. During fasting, GH-induced insulin resistance may be favorable by reducing the demand of gluconeogenesis from protein. But in the postprandial phase, GH exposure may compromise glucose tolerance via the same mechanisms. Understanding the mechanisms whereby GH antagonizes insulin-stimulated glucose disposal in muscle is an important future research field with implications for a variety of clinical conditions ranging from malnutrition to obesity and type 2 diabetes. Keywords Growth hormone * Insulin-like growth factor I * Growth hormone deficiency * Growth hormone signaling * Insulin resistance, Introduction The phenotypical appearance of patients with perturbed growth hormone (GH) status such as in acromegaly or GH deficiency illustrates that GH and insulin-like growth factor I (IGF-1) regulate muscle [...]

Published
2010
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24. Dynamic changes in DICER levels in adipose tissue control metabolic adaptations to exercise

Author

Brandão, Bruna B, Madsen, Søren, Rabiee, Atefeh, Oliverio, Matteo, Ruiz, Gabriel P, Ferrucci, Danilo L, Branquinho, Jéssica L, Razolli, Daniela, Pinto, Silas, Nielsen, Thomas S, Festuccia, William T, Martins, Adriano S, Guerra, Beatriz A, Knittel, Thiago L, Søgaard, Ditte, Larsen, Steen, Helge, Jørn W, Brandauer, Josef, Velloso, Lício A, Emanuelli, Brice, Kornfeld, Jan-Wilhelm, Kahn, C Ronald, Vienberg, Sara G, Zierath, Juleen R, Treebak, Jonas T, Mori, Marcelo A, Brandão, Bruna B, Madsen, Søren, Rabiee, Atefeh, Oliverio, Matteo, Ruiz, Gabriel P, Ferrucci, Danilo L, Branquinho, Jéssica L, Razolli, Daniela, Pinto, Silas, Nielsen, Thomas S, Festuccia, William T, Martins, Adriano S, Guerra, Beatriz A, Knittel, Thiago L, Søgaard, Ditte, Larsen, Steen, Helge, Jørn W, Brandauer, Josef, Velloso, Lício A, Emanuelli, Brice, Kornfeld, Jan-Wilhelm, Kahn, C Ronald, Vienberg, Sara G, Zierath, Juleen R, Treebak, Jonas T, and Mori, Marcelo A

Abstract

DICER is a key enzyme in microRNA (miRNA) biogenesis. Here we show that aerobic exercise training up-regulates DICER in adipose tissue of mice and humans. This can be mimicked by infusion of serum from exercised mice into sedentary mice and depends on AMPK-mediated signaling in both muscle and adipocytes. Adipocyte DICER is required for whole-body metabolic adaptations to aerobic exercise training, in part, by allowing controlled substrate utilization in adipose tissue, which, in turn, supports skeletal muscle function. Exercise training increases overall miRNA expression in adipose tissue, and up-regulation of miR-203-3p limits glycolysis in adipose under conditions of metabolic stress. We propose that exercise training-induced DICER-miR-203-3p up-regulation in adipocytes is a key adaptive response that coordinates signals from working muscle to promote whole-body metabolic adaptations.

Published
2020

25. Introduction

Author

Nilsson, Kjell, primary, Pauleit, Stephan, additional, Bell, Simon, additional, Aalbers, Carmen, additional, and Nielsen, Thomas S., additional

Published
2012
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29. Dynamic interplay between AfadinS1795 phosphorylation and diet regulates glucose homeostasis in obese mice.

Author

Tozzi, Marco, Brown, Erin L., Petersen, Patricia S. S., Lundh, Morten, Isidor, Marie S., Plucińska, Kaja, Nielsen, Thomas S., Agueda‐Oyarzabal, Marina, Small, Lewin, Treebak, Jonas T., and Emanuelli, Brice

Subjects
INSULIN, PHOSPHORYLATION, SCAFFOLD proteins, GLUCOSE, ADIPOSE tissues, HOMEOSTASIS
Abstract

Key points: Afadin is a ubiquitously expressed scaffold protein with a recently discovered role in insulin signalling and glucose metabolism.Insulin‐stimulated phosphorylation of Afadin at S1795 occurs in insulin‐responsive tissues such as adipose tissue, muscle, liver, pancreas and heart.Afadin abundance and AfadinS1795 phosphorylation are dynamically regulated in metabolic tissues during diet‐induced obesity progression.Genetic silencing of AfadinS1795 phosphorylation improves glucose homeostasis in the early stages of diet‐induced metabolic dysregulation.AfadinS1795 phosphorylation contributes to the early development of obesity‐related complications in mice. Obesity is associated with systemic insulin resistance and numerous metabolic disorders. Yet, the mechanisms underlying impaired insulin action during obesity remain to be fully elucidated. Afadin is a multifunctional scaffold protein with the ability to modulate insulin action through its phosphorylation at S1795 in adipocytes. In the present study, we report that insulin‐stimulated AfadinS1795 phosphorylation is not restricted to adipose tissues, but is a common signalling event in insulin‐responsive tissues including muscle, liver, pancreas and heart. Furthermore, a dynamic regulation of Afadin abundance occurred during diet‐induced obesity progression, while its phosphorylation was progressively attenuated. To investigate the role of AfadinS1795 phosphorylation in the regulation of whole‐body metabolic homeostasis, we generated a phospho‐defective mouse model (Afadin SA) in which the Afadin phosphorylation site was silenced (S1795A) at the whole‐body level using CRISPR‐Cas9‐mediated gene editing. Metabolic characterization of these mice under basal physiological conditions or during a high‐fat diet (HFD) challenge revealed that preventing AfadinS1795 phosphorylation improved insulin sensitivity and glucose tolerance and increased liver glycogen storage in the early stage of diet‐induced metabolic dysregulation, without affecting body weight. Together, our findings reveal that AfadinS1795 phosphorylation in metabolic tissues is critical during obesity progression and contributes to promote systemic insulin resistance and glucose intolerance in the early phase of diet‐induced obesity. [ABSTRACT FROM AUTHOR]

Published
2022
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30. Aerobic and resistance exercise training reverses age-dependent decline in NAD(+) salvage capacity in human skeletal muscle

Author

de Guia, Roldan M., Agerholm, Marianne, Nielsen, Thomas S., Consitt, Leslie A., Sogaard, Ditte, Helge, Jorn W., Larsen, Steen, Brandauer, Josef, Houmard, Joseph A., Treebak, Jonas T., de Guia, Roldan M., Agerholm, Marianne, Nielsen, Thomas S., Consitt, Leslie A., Sogaard, Ditte, Helge, Jorn W., Larsen, Steen, Brandauer, Josef, Houmard, Joseph A., and Treebak, Jonas T.

Abstract

Aging decreases skeletal muscle mass and strength, but aerobic and resistance exercise training maintains skeletal muscle function. NAD(+) is a coenzyme for ATP production and a required substrate for enzymes regulating cellular homeostasis. In skeletal muscle, NAD(+) is mainly generated by the NAD(+) salvage pathway in which nicotinamide phosphoribosyltransferase (NAMPT) is rate-limiting. NAMPT decreases with age in human skeletal muscle, and aerobic exercise training increases NAMPT levels in young men. However, whether distinct modes of exercise training increase NAMPT levels in both young and old people is unknown. We assessed the effects of 12 weeks of aerobic and resistance exercise training on skeletal muscle abundance of NAMPT, nicotinamide riboside kinase 2 (NRK2), and nicotinamide mononucleotide adenylyltransferase (NMNAT) 1 and 3 in young (<= 35 years) and older (>= 55 years) individuals. NAMPT in skeletal muscle correlated negatively with age (r(2) = 0.297, P < 0.001, n = 57), and VO(2)peak was the best predictor of NAMPT levels. Moreover, aerobic exercise training increased NAMPT abundance 12% and 28% in young and older individuals, respectively, whereas resistance exercise training increased NAMPT abundance 25% and 30% in young and in older individuals, respectively. None of the other proteins changed with exercise training. In a separate cohort of young and old people, levels of NAMPT, NRK1, and NMNAT1/2 in abdominal subcutaneous adipose tissue were not affected by either age or 6 weeks of high-intensity interval training. Collectively, exercise training reverses the age-dependent decline in skeletal muscle NAMPT abundance, and our findings highlight the value of exercise training in ameliorating age-associated deterioration of skeletal muscle function.

Published
2019

31. Discovery of thymosin &#946:4 as a human exerkine and growth factor.

Author

Gonzalez-Franquesa, Alba, Stocks, Ben, Borg, Melissa L., Kuefner, Michael, Dalbram, Emilie, Nielsen, Thomas S., Agrawal, Ankita, Pankratova, Stanislava, Chibalin, Alexander V., Karlsson, Håkan K. R., Gheibi, Sevda, Björnholm, Marie, Jørgensen, Niklas Rye, Clemmensen, Christoffer, Hostrup, Morten, Treebak, Jonas T., Krook, Anna, Zierath, Juleen R., and Deshmukh, Atul S.

Subjects
THYMOSIN, HUMAN growth, RESISTANCE training, INSULIN resistance, ISOMETRIC exercise
Abstract

Skeletal muscle is an endocrine organ secreting exercise-induced factors (exerkines), which play a pivotal role in interorgan cross talk. Using mass spectrometry (MS)-based proteomics, we characterized the secretome and identified thymosin β4 (TMSB4X) as the most upregulated secreted protein in the media of contracting C2C12 myotubes. TMSB4X was also acutely increased in the plasma of exercising humans irrespective of the insulin resistance condition or exercise mode. Treatment of mice with TMSB4X did not ameliorate the metabolic disruptions associated with diet induced-obesity, nor did it enhance muscle regeneration in vivo. However, TMSB4X increased osteoblast proliferation and neurite outgrowth, consistent with its WADA classification as a prohibited growth factor. Therefore, we report TMSB4X as a human exerkine with a potential role in cellular cross talk. [ABSTRACT FROM AUTHOR]

Published
2021
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33. Growth hormone acts along the PPARγ-FSP27 axis to stimulate lipolysis in human adipocytes

Author

Sharma, Vishva M., primary, Vestergaard, Esben Thyssen, additional, Jessen, Niels, additional, Kolind-Thomsen, Peter, additional, Nellemann, Birgitte, additional, Nielsen, Thomas S., additional, Vendelbo, Mikkel Holm, additional, Møller, Niels, additional, Sharma, Rita, additional, Lee, Kevin Y., additional, Kopchick, John J., additional, Jørgensen, Jens Otto Lunde, additional, and Puri, Vishwajeet, additional

Published
2019
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34. Hvorfor vokser trafikken på vores veje?

Author

Jacobsen, Anette and Nielsen, Thomas S.

Abstract

Fra 2000 - 2015 voksede vejtrafikken i gennemsnit med 1,2 pct. om året, men det er gået langt hurtigere i de sidste par år, hvor der er kommet større afstand til finanskrisen. Det er forventningen, at trafikken også vil vedblive med at stige fremover. Landstrafikmodellens basisprognose lyder på en vækst på 14 pct. i vejtrafikken fra 2015 til 2030. For biltrafikken peges der på økonomi (ofte målt som BNP), befolkningens størrelse og sammensætning, priser på biler og kørselsomkostninger, rejsetider og vejkapacitet, erhvervs- og bystruktur, konkurrerende transportformer, såvel som sociale normer og nye teknologier – som de væsentligste drivkræfter. Mange af disse er dækket af de prognosemodeller der anvendes, mens andre falder uden for. Et overblik over trafikkens drivkræfter er med til at give et udgangspunkt for at forstå og foregribe udviklingen, samt overveje indikatorer, der kan understøtte arbejdet med at planlægge fremtidens infrastruktur og trafik., Proceedings from the Annual Transport Conference at Aalborg University, Vol. 24 No. 1 (2017): Proceedings from the Annual Transport Conference at Aalborg University

Published
2017
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36. Substrate metabolism, hormone and cytokine levels and adipose tissue signalling in individuals with type 1 diabetes after insulin withdrawal and subsequent insulin therapy to model the initiating steps of ketoacidosis

Author

Voss, Thomas S., primary, Vendelbo, Mikkel H., additional, Kampmann, Ulla, additional, Pedersen, Steen B., additional, Nielsen, Thomas S., additional, Johannsen, Mogens, additional, Svart, Mads V., additional, Jessen, Niels, additional, and Møller, Niels, additional

Published
2018
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38. Electrical pulse stimulation induces differential responses in insulin action in myotubes from severely obese individuals.

Author

Park, Sanghee, Turner, Kristen D., Zheng, Donghai, Brault, Jeffrey J., Zou, Kai, Chaves, Alec B., Nielsen, Thomas S., Tanner, Charles J., Treebak, Jonas T., and Houmard, Joseph A.

Subjects
INSULIN, INSULIN resistance, SKELETAL muscle, MUSCLE contraction, CELLULAR signal transduction
Abstract

Key points: Exercise/exercise training can enhance insulin sensitivity through adaptations in skeletal muscle, the primary site of insulin‐mediated glucose disposal; however, in humans the range of improvement can vary substantially.The purpose of this study was to determine if obesity influences the magnitude of the exercise response in relation to improving insulin sensitivity in human skeletal muscle.Electrical pulse stimulation (EPS; 24 h) of primary human skeletal muscle myotubes improved insulin action in tissue from both lean and severely obese individuals, but responses to EPS were blunted with obesity.EPS improved insulin signal transduction in myotubes from lean but not severely obese subjects and increased AMP accumulation and AMPK Thr172 phosphorylation, but to a lesser degree in myotubes from the severely obese.These data reveal that myotubes of severely obese individuals enhance insulin action and stimulate exercise‐responsive molecules with contraction, but in a manner and magnitude that differs from lean subjects. Exercise/muscle contraction can enhance whole‐body insulin sensitivity; however, in humans the range of improvements can vary substantially. In order, to determine if obesity influences the magnitude of the exercise response, this study compared the effects of electrical pulse stimulation (EPS)‐induced contractile activity upon primary myotubes derived from lean and severely obese (BMI ≥ 40 kg/m2) women. Prior to muscle contraction, insulin action was compromised in myotubes from the severely obese as was evident from reduced insulin‐stimulated glycogen synthesis, glucose oxidation, glucose uptake, insulin signal transduction (IRS1, Akt, TBC1D4), and insulin‐stimulated GLUT4 translocation. EPS (24 h) increased AMP, IMP, AMPK Thr172 phosphorylation, PGC1α content, and insulin action in myotubes of both the lean and severely obese subjects. However, despite normalizing indices of insulin action to levels seen in the lean control (non‐EPS) condition, responses to EPS were blunted with obesity. EPS improved insulin signal transduction in myotubes from lean but not severely obese subjects and EPS increased AMP accumulation and AMPK Thr172 phosphorylation, but to a lesser degree in myotubes from the severely obese. These data reveal that myotubes of severely obese individuals enhance insulin action and stimulate exercise‐responsive molecules with contraction, but in a manner and magnitude that differs from lean subjects. Key points: Exercise/exercise training can enhance insulin sensitivity through adaptations in skeletal muscle, the primary site of insulin‐mediated glucose disposal; however, in humans the range of improvement can vary substantially.The purpose of this study was to determine if obesity influences the magnitude of the exercise response in relation to improving insulin sensitivity in human skeletal muscle.Electrical pulse stimulation (EPS; 24 h) of primary human skeletal muscle myotubes improved insulin action in tissue from both lean and severely obese individuals, but responses to EPS were blunted with obesity.EPS improved insulin signal transduction in myotubes from lean but not severely obese subjects and increased AMP accumulation and AMPK Thr172 phosphorylation, but to a lesser degree in myotubes from the severely obese.These data reveal that myotubes of severely obese individuals enhance insulin action and stimulate exercise‐responsive molecules with contraction, but in a manner and magnitude that differs from lean subjects. [ABSTRACT FROM AUTHOR]

Published
2019
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39. Sevoflurane Impairs Insulin Secretion and Tissue‐Specific Glucose Uptake In Vivo.

Author

Høyer, Kasper F., Nielsen, Thomas S., Risis, Steve, Treebak, Jonas T., and Jessen, Niels

Subjects
*SEVOFLURANE, *PEOPLE with diabetes, *TREATMENT effectiveness, *INSULIN resistance, *TISSUE analysis
Abstract

The use of anaesthetics severely influences substrate metabolism. This poses challenges for patients in clinical settings and for the use of animals in diabetes research. Sevoflurane can affect regulation of glucose homoeostasis at several steps, but the tissue‐specific response remains to be determined. The aim of the study was to investigate the pharmacological effect of sevoflurane anaesthesia on glucose homoeostasis during hyperinsulinaemic clamp conditions, the gold standard method for assessment of whole‐body insulin sensitivity. Conscious mice (n = 6) and mice under sevoflurane anaesthesia (n = 8) underwent a hyperinsulinaemic clamp where constant infusion of insulin and donor blood was administered during variable glucose infusion to maintain isoglycaemia. 2‐[1‐14C]‐deoxy‐D‐glucose was infused to determine tissue‐specific uptake of glucose in adipose tissue, heart, brain and skeletal muscle. Sevoflurane anaesthesia severely impaired insulin‐stimulated whole‐body glucose uptake demonstrated by a 50% lower glucose infusion rate (GIR). This was associated with decreased glucose uptake in brain, soleus, triceps and gastrocnemius muscles in sevoflurane‐anaesthetized mice compared to conscious mice. Plasma‐free fatty acids (FFA), a potent inducer of insulin resistance, increased by 42% in mice during sevoflurane anaesthesia. In addition, insulin secretion from pancreatic β‐cell was lower in fasted, anaesthetized mice. Sevoflurane anaesthesia impairs insulin secretion, induces insulin resistance in mice and reduces glucose uptake in non‐insulin‐sensitive tissue like the brain. The underlying mechanisms may involve sevoflurane‐induced mobilization of FFA. [ABSTRACT FROM AUTHOR]

Published
2018
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40. Pronounced expression of the lipolytic inhibitor G0/G1 Switch Gene 2 (G0S2) in adipose tissue from brown bears (Ursus arctos) prior to hibernation

Author

Jessen, Niels, Nielsen, Thomas S, Vendelbo, Mikkel H, Viggers, Rikke, Støen, Ole-Gunnar, Evans, Alina, Frøbert, Ole, Jessen, Niels, Nielsen, Thomas S, Vendelbo, Mikkel H, Viggers, Rikke, Støen, Ole-Gunnar, Evans, Alina, and Frøbert, Ole

Abstract

Prior to hibernation, the brown bear (Ursus arctos) exhibits unparalleled weight gain. Unlike humans, weight gain in bears is associated with lower levels of circulating free fatty acids (FFA) and increased insulin sensitivity. Understanding how free-ranging brown bears suppress lipolysis when gaining weight may therefore provide novel insight toward the development of human therapies. Blood and subcutaneous adipose tissue were collected from immobilized free-ranging brown bears (fitted with GPS-collars) during hibernation in winter and from the same bears during the active period in summer in Dalarna, Sweden. The expression of lipid droplet-associated proteins in adipose tissue was examined under the hypothesis that bears suppress lipolysis during summer while gaining weight by increased expression of negative regulators of lipolysis. Adipose triglyceride lipase (ATGL) expression did not differ between seasons, but in contrast, the expression of ATGL coactivator Comparative gene identification-58 (CGI-58) was lower in summer. In addition, the expression of the negative regulators of lipolysis, G0S2 and cell-death inducing DNA fragmentation factor-a-like effector (CIDE)C markedly increased during summer. Free-ranging brown bears display potent upregulation of inhibitors of lipolysis in adipose tissue during summer. This is a potential mechanism for increased insulin sensitivity during weight gain and G0S2 may serve as a target to modulate insulin sensitivity.

Published
2016

44. Combined Insulin Deficiency and Endotoxin Exposure Stimulate Lipid Mobilization and Alter Adipose Tissue Signaling in an Experimental Model of Ketoacidosis in Subjects With Type 1 Diabetes: A Randomized Controlled Crossover Trial

Author

Svart, Mads, primary, Kampmann, Ulla, additional, Voss, Thomas, additional, Pedersen, Steen B., additional, Johannsen, Mogens, additional, Rittig, Nikolaj, additional, Poulsen, Per L., additional, Nielsen, Thomas S., additional, Jessen, Niels, additional, and Møller, Niels, additional

Published
2016
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45. Do motorways shape urban growth? Analysis of growth patterns with micro-level data – before and after road openings in two Danish motorway corridors

Author

Nielsen, Thomas S. and Hovgesen, Henrik Harder

Subjects
ddc:330
Abstract

The paper is an offspring from the Research project Town, Road and Landscape that aims to assess the effect of the Danish motorway network (specifically the last 20 years) on urban growth and interaction patterns. As one of the main interests of the project is the changing urban form and the changing character of the roadscape, the impact of the motorway is in part analysed with micro level data, spatial statistics and GIS – to allowing mapping of changing development trends in motorway corridors. The paper presents analysis of the impact of motorway openings on urban form in two Danish motorway corridors. The analysis is based on a before and after perspective – where the building activity and its location (building register with address coordinates) after the opening of the motorway is compared to building activity in the years before the construction of the motorway. Preliminary results suggest that the motorway most markedly influences the location of non-residential building activities within the city – in favour of locations near the entrance points to/from the motorway network. The development can be explained in part by municipal planning, which in some instances has opened up the new locations for development far ahead of market demand – and in part by an increasing demand for exposed and accessible sites for business development which still seems to be in its beginning.

Published
2005

46. GPS in Travel and Activity Surveys

Author

Nielsen, Thomas S. and Hovgesen, Henrik Harder

Abstract

The use of GPS-positioning as a monitoring tool in travel and activity surveys opens up a range of possibilities. Using a personal GPS device, the locations and movements of respondents can be followed over a longer period of time. It will then be possible to analyse how the use of urban spaces are embedded in the wider context of activity patterns (work, school etc.). The general pattern of everyday itineraries, including route choice and time spent at different locations “on the way” can also be analysed. If the personal GPS device is combined with an electronic questionnaire, for example in the shape of a Personal Digital Assistant (PDA) or cell phone, a whole new array of survey possibilities comes into being. Respondents can be asked to register their activities, evaluate or in other ways describe the attractiveness of places or modes based on their actual position and doings in the urban area. The paper presents the possibilities in travel and activity surveys with GPS and electronic questionnaires. Demonstrative mapping of test data from passive GPS registration of Copenhagen respondents is presented. The different survey possibilities given a combination of GPS and PDA based electronic questionnaires are presented together with a first generation PDA-based questionnaire., Proceedings from the Annual Transport Conference at Aalborg University, Vol. 1 No. 1 (2004): Proceedings from the Annual Transport Conference at Aalborg University

Published
2004
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47. EyeGaze

Author

Kjeldskov, Jesper, primary, Smedegård, Jacob H., additional, Nielsen, Thomas S., additional, Skov, Mikael B., additional, and Paay, Jeni, additional

Published
2014
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48. Eye contact over video

Author

Kjeldskov, Jesper, primary, Smedegård, Jacob H., additional, Nielsen, Thomas S., additional, Skov, Mikael B., additional, and Paay, Jeni, additional

Published
2014
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49. Evaluation of functional erythropoietin receptor status in skeletal muscle in vivo:acute and prolonged studies in healthy human subjects

Author

Christensen, Britt, Lundby, Carsten, Jessen, Niels, Nielsen, Thomas S., Vestergaard, Poul F., Møller, Niels, Pilegaard, Henriette, Pedersen, Steen B., Kopchick, John J., Jørgensen, Jens Otto L., Christensen, Britt, Lundby, Carsten, Jessen, Niels, Nielsen, Thomas S., Vestergaard, Poul F., Møller, Niels, Pilegaard, Henriette, Pedersen, Steen B., Kopchick, John J., and Jørgensen, Jens Otto L.

Abstract

Background: Erythropoietin receptors have been identified in human skeletal muscle tissue, but downstream signal transduction has not been investigated. We therefore studied in vivo effects of systemic erythropoietin exposure in human skeletal muscle. Methodology/Principal Findings: The protocols involved 1) acute effects of a single bolus injection of erythropoietin followed by consecutive muscle biopsies for 1-10 hours, and 2) a separate study with prolonged administration for 16 days with biopsies obtained before and after. The presence of erythropoietin receptors in muscle tissue as well as activation of Epo signalling pathways (STAT5, MAPK, Akt, IKK) were analysed by western blotting. Changes in muscle protein profiles after prolonged erythropoietin treatment were evaluated by 2D gel-electrophoresis and mass spectrometry. The presence of the erythropoietin receptor in skeletal muscle was confirmed, by the M20 but not the C20 antibody. However, no significant changes in phosphorylation of the Epo-R, STAT5, MAPK, Akt, Lyn, IKK, and p70S6K after erythropoietin administration were detected. The level of 8 protein spots were significantly altered after 16 days of rHuEpo treatment; one isoform of myosin light chain 3 and one of desmin/actin were decreased, while three isoforms of creatine kinase and two of glyceraldehyd-3-phosphate dehydrogenase were increased. Conclusions/Significance: Acute exposure to recombinant human erythropoietin is not associated by detectable activation of the Epo-R or downstream signalling targets in human skeletal muscle in the resting situation, whereas more prolonged exposure induces significant changes in the skeletal muscle proteome. The absence of functional Epo receptor activity in human skeletal muscle indicates that the long-term effects are indirect and probably related to an increased oxidative capacity in this tissue.

Published
2012

50. Evaluation of functional erythropoietin receptor status in skeletal muscle in vivo: acute and prolonged studies in healthy human subjects

Author

Christensen, Britt, Lundby, Carsten, Jessen, Niels, Nielsen, Thomas S, Vestergaard, Poul F, Møller, Niels, Pilegaard, Henriette, Pedersen, Steen B, Kopchick, John J, Jørgensen, Jens Otto L, Christensen, Britt, Lundby, Carsten, Jessen, Niels, Nielsen, Thomas S, Vestergaard, Poul F, Møller, Niels, Pilegaard, Henriette, Pedersen, Steen B, Kopchick, John J, and Jørgensen, Jens Otto L

Abstract

BACKGROUND: Erythropoietin receptors have been identified in human skeletal muscle tissue, but downstream signal transduction has not been investigated. We therefore studied in vivo effects of systemic erythropoietin exposure in human skeletal muscle. METHODOLOGY/PRINCIPAL FINDINGS: The protocols involved 1) acute effects of a single bolus injection of erythropoietin followed by consecutive muscle biopsies for 1-10 hours, and 2) a separate study with prolonged administration for 16 days with biopsies obtained before and after. The presence of erythropoietin receptors in muscle tissue as well as activation of Epo signalling pathways (STAT5, MAPK, Akt, IKK) were analysed by western blotting. Changes in muscle protein profiles after prolonged erythropoietin treatment were evaluated by 2D gel-electrophoresis and mass spectrometry. The presence of the erythropoietin receptor in skeletal muscle was confirmed, by the M20 but not the C20 antibody. However, no significant changes in phosphorylation of the Epo-R, STAT5, MAPK, Akt, Lyn, IKK, and p70S6K after erythropoietin administration were detected. The level of 8 protein spots were significantly altered after 16 days of rHuEpo treatment; one isoform of myosin light chain 3 and one of desmin/actin were decreased, while three isoforms of creatine kinase and two of glyceraldehyd-3-phosphate dehydrogenase were increased. CONCLUSIONS/SIGNIFICANCE: Acute exposure to recombinant human erythropoietin is not associated by detectable activation of the Epo-R or downstream signalling targets in human skeletal muscle in the resting situation, whereas more prolonged exposure induces significant changes in the skeletal muscle proteome. The absence of functional Epo receptor activity in human skeletal muscle indicates that the long-term effects are indirect and probably related to an increased oxidative capacity in this tissue.

Published
2012

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