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22 results on '"Krogh-Madsen R"'

1. Human visceral and subcutaneous adipose stem and progenitor cells retain depot-specific adipogenic properties during obesity

Author

Mathur, N, Severinsen, MCK, Jensen, ME, Naver, L, Schrolkamp, M, Laye, MJ, Watt, MJ, Nielsen, S, Krogh-Madsen, R, Pedersen, BK, Scheele, C, Mathur, N, Severinsen, MCK, Jensen, ME, Naver, L, Schrolkamp, M, Laye, MJ, Watt, MJ, Nielsen, S, Krogh-Madsen, R, Pedersen, BK, and Scheele, C

Abstract

Abdominal obesity associates with cardiometabolic disease and an accumulation of lipids in the visceral adipose depot, whereas lipid accumulation in the subcutaneous depot is more benign. We aimed to further investigate whether the adipogenic properties where cell-intrinsic, or dependent on a depot-specific or obesity-produced microenvironment. We obtained visceral and subcutaneous biopsies from non-obese women (n = 14) or women living with morbid obesity (n = 14) and isolated adipose stem and progenitor cells (ASPCs) from the stromal vascular fraction of non-obese (n = 13) and obese (n = 13). Following in vitro differentiation into mature adipocytes, we observed a contrasting pattern with a lower gene expression of adipogenic markers and a higher gene expression of immunogenic markers in the visceral compared to the subcutaneous adipocytes. We identified the immunogenic factor BST2 as a marker for visceral ASPCs. The effect of obesity and insulin resistance on adipogenic and immunogenic markers in the in vitro differentiated cells was minor. In contrast, differentiation with exogenous Tumor necrosis factor resulted in increased immunogenic signatures, including increased expression of BST2, and decreased adipogenic signatures in cells from both depots. Our data, from 26 women, underscore the intrinsic differences between human visceral and subcutaneous adipose stem and progenitor cells, suggest that dysregulation of adipocytes in obesity mainly occurs at a post-progenitor stage, and highlight an inflammatory microenvironment as a major constraint of human adipogenesis.

Published
2022

2. Effect of IL-6 on the insulin sensitivity in patients with type 2 diabetes

Author

Harder-Lauridsen, N M, Krogh-Madsen, R, Holst, Jens Juul, Plomgaard, P., Leick, L, Pedersen, B K, Fischer, C P, Harder-Lauridsen, N M, Krogh-Madsen, R, Holst, Jens Juul, Plomgaard, P., Leick, L, Pedersen, B K, and Fischer, C P

Abstract

Elevated interleukin-6 (IL-6) levels are associated with type 2 diabetes, but its role in glucose metabolism is controversial. We investigated the effect of IL-6 on insulin-stimulated glucose metabolism in type 2 diabetes patients and hypothesized that an acute, moderate IL-6 elevation would increase the insulin-mediated glucose uptake. Men with type 2 diabetes not treated with insulin [n = 9, age 54.9 ± 9.7 (mean ± SD) yr, body mass index 34.8 ± 6.1 kg/m(2), HbA1c 7.0 ± 1.0%] received continuous intravenous infusion with either recombinant human IL-6 (rhIL-6) or placebo. After 1 h with placebo or rhIL-6, a 3-h hyperinsulinemic-isoglycemic clamp was initiated. Whole body glucose metabolism was measured using stable isotope-labeled tracers. Signal transducer and activator of transcription 3 (STAT3) phosphorylation and suppressor of cytokine signaling 3 (SOCS3) expression were measured in muscle biopsies. Whole body energy expenditure was measured using indirect calorimetry. In response to the infusion of rhIL-6, circulating levels of IL-6 (P < 0.001), neutrophils (P < 0.001), and cortisol (P < 0.001) increased while lymphocytes decreased (P < 0.01). However, IL-6 infusion did not change glucose infusion rate, rate of appearance, or rate of disappearance during the clamp. While IL-6 enhanced phosphorylation of STAT3 in skeletal muscle (P = 0.041), the expression of SOCS3 remained unchanged. Whole body oxygen uptake (P < 0.01) and expired carbon dioxide (P < 0.01) increased during rhIL-6 infusion. In summary, although IL-6 induced local and systemic responses, the insulin-stimulated glucose uptake was not affected. While different contributing factors may be involved, our results are in contrast to our hypothesis and previous findings in young, healthy men.

Published
2014

3. Effect of IL-6 on the insulin sensitivity in patients with type 2 diabetes

Author

Harder-Lauridsen, N M, Krogh-Madsen, R, Holst, Jens Juul, Plomgaard, P., Leick, L, Pedersen, B K, Fischer, C P, Harder-Lauridsen, N M, Krogh-Madsen, R, Holst, Jens Juul, Plomgaard, P., Leick, L, Pedersen, B K, and Fischer, C P

Abstract

Elevated interleukin-6 (IL-6) levels are associated with type 2 diabetes, but its role in glucose metabolism is controversial. We investigated the effect of IL-6 on insulin-stimulated glucose metabolism in type 2 diabetes patients and hypothesized that an acute, moderate IL-6 elevation would increase the insulin-mediated glucose uptake. Men with type 2 diabetes not treated with insulin [n = 9, age 54.9 ± 9.7 (mean ± SD) yr, body mass index 34.8 ± 6.1 kg/m(2), HbA1c 7.0 ± 1.0%] received continuous intravenous infusion with either recombinant human IL-6 (rhIL-6) or placebo. After 1 h with placebo or rhIL-6, a 3-h hyperinsulinemic-isoglycemic clamp was initiated. Whole body glucose metabolism was measured using stable isotope-labeled tracers. Signal transducer and activator of transcription 3 (STAT3) phosphorylation and suppressor of cytokine signaling 3 (SOCS3) expression were measured in muscle biopsies. Whole body energy expenditure was measured using indirect calorimetry. In response to the infusion of rhIL-6, circulating levels of IL-6 (P < 0.001), neutrophils (P < 0.001), and cortisol (P < 0.001) increased while lymphocytes decreased (P < 0.01). However, IL-6 infusion did not change glucose infusion rate, rate of appearance, or rate of disappearance during the clamp. While IL-6 enhanced phosphorylation of STAT3 in skeletal muscle (P = 0.041), the expression of SOCS3 remained unchanged. Whole body oxygen uptake (P < 0.01) and expired carbon dioxide (P < 0.01) increased during rhIL-6 infusion. In summary, although IL-6 induced local and systemic responses, the insulin-stimulated glucose uptake was not affected. While different contributing factors may be involved, our results are in contrast to our hypothesis and previous findings in young, healthy men.

Published
2014

4. Effects of erythropoietin administration on cerebral metabolism and exercise capacity in men

Author

Rasmussen, Peter, Foged, Eva M, Krogh-Madsen, Rikke, Nielsen, Jannie, Nielsen, Thomas R, Olsen, Niels Vidiendal, Petersen, Nicolas C, Sørensen, Thomas A, Secher, Niels H, Lundby, Carsten, Rasmussen, P, Foged, E. M., Krogh-Madsen, R, Nielsen, J, Nielsen, T. Rune, Olsen, N V, Petersen, N C, Sørensen, T A, Secher, N H, Rasmussen, Peter, Foged, Eva M, Krogh-Madsen, Rikke, Nielsen, Jannie, Nielsen, Thomas R, Olsen, Niels Vidiendal, Petersen, Nicolas C, Sørensen, Thomas A, Secher, Niels H, Lundby, Carsten, Rasmussen, P, Foged, E. M., Krogh-Madsen, R, Nielsen, J, Nielsen, T. Rune, Olsen, N V, Petersen, N C, Sørensen, T A, and Secher, N H

Abstract

Udgivelsesdato: 2010-Jun, Recombinant human erythropoietin (EPO) increases exercise capacity by stimulating erythropoiesis and subsequently enhancing oxygen delivery to the working muscles. In a large dose, EPO cross the blood brain barrier and may reduce central fatigue and improve cognition. In turn, this would augment exercise capacity independent of erythropoiesis. To test this hypothesis, 15 healthy young males (18-34 yo., 74 +/- 7 kg) received either 3 days of high dose (30,000 IU day(-1), N=7) double-blinded placebo controlled or 3 months of low dose (5,000 IU week(-1), N=8) counter-balanced open but controlled administration of EPO. We recorded exercise capacity, transcranial ultrasonography-derived middle cerebral artery blood velocity, and arterial-internal jugular venous concentration differences of glucose and lactate. In addition, cognitive function, ratings of perceived exertion, ventilation and voluntary activation by transcranial magnetic stimulation-induced twitch force were evaluated. Although EPO in a high dose increased cerebrospinal fluid EPO concentration ~20-fold and affected ventilation and cerebral glucose and lactate metabolism (P<0.05), 3 days high dose EPO administration had no effect on cognition, voluntary activation or exercise capacity but ratings of perceived exertion increased (P<0.05). We confirmed that 3 month's administration of EPO increases exercise capacity, but the improvement could not be accounted for by other mechanisms than enhanced oxygen delivery. In conclusion, EPO does not attenuate central fatigue or changes cognitive performance strategy suggesting that EPO enhances exercise capacity exclusively by increased oxygen delivery to the working muscles.

Published
2010

5. Reduced muscle activation during exercise related to brain oxygenation and metabolism in humans

Author

Rasmussen, Peter, Nielsen, Jannie, Overgaard, M, Krogh-Madsen, R, Gjedde, A, Secher, N H, Petersen, Nicolas Caesar, Rasmussen, P, Nielsen, J, Gjedde, Albert, Petersen, N C, Rasmussen, Peter, Nielsen, Jannie, Overgaard, M, Krogh-Madsen, R, Gjedde, A, Secher, N H, Petersen, Nicolas Caesar, Rasmussen, P, Nielsen, J, Gjedde, Albert, and Petersen, N C

Abstract

Udgivelsesdato: 2010-Jun-1, Maximal exercise may be limited by central fatigue defined as an inability of the central nervous system to fully recruit the involved muscles. This study evaluated whether a reduction in the cerebral oxygen-to-carbohydrate index (OCI) and in the cerebral mitochondrial oxygen tension relate to the ability to generate a maximal voluntary contraction and to the transcranial magnetic stimulated force generation. To determine the role of a reduced OCI and in central fatigue, 16 males performed low intensity, maximal intensity and hypoxic cycling exercise. Exercise fatigue was evaluated by ratings of perceived exertion (RPE), arm maximal voluntary force (MVC), and voluntary activation of elbow flexor muscles assessed with transcranial magnetic stimulation. Low intensity exercise did not produce any indication of central fatigue or marked cerebral metabolic deviations. Exercise in hypoxia (0.10) reduced cerebral oxygen delivery 25% and decreased 11+/-4 mmHg (P<0.001) together with OCI (6.2+/-0.7 to 4.8+/-0.5, P<0.001). RPE increased while MVC and voluntary activation were reduced (P<0.05). During maximal exercise declined 8+/-4 mmHg (P<0.05) and OCI to 3.8+/-0.5 (P<0.001). RPE was 18.5, and MVC and voluntary activation were reduced (P<0.05). We observed no signs of muscular fatigue in the elbow flexors and all control MVCs were similar to resting values. Exhaustive exercise provoked cerebral deoxygenation, metabolic changes and indices of fatigue similar to those observed during exercise in hypoxia indicating that reduced cerebral oxygenation may play a role in the development of central fatigue and may be an exercise capacity limiting factor.

Published
2010

6. Effects of erythropoietin administration on cerebral metabolism and exercise capacity in men

Author

Rasmussen, Peter, Foged, Eva M, Krogh-Madsen, Rikke, Nielsen, Jannie, Nielsen, Thomas R, Olsen, Niels Vidiendal, Petersen, Nicolas C, Sørensen, Thomas A, Secher, Niels H, Lundby, Carsten, Rasmussen, P, Foged, E. M., Krogh-Madsen, R, Nielsen, J, Nielsen, T. Rune, Olsen, N V, Petersen, N C, Sørensen, T A, Secher, N H, Rasmussen, Peter, Foged, Eva M, Krogh-Madsen, Rikke, Nielsen, Jannie, Nielsen, Thomas R, Olsen, Niels Vidiendal, Petersen, Nicolas C, Sørensen, Thomas A, Secher, Niels H, Lundby, Carsten, Rasmussen, P, Foged, E. M., Krogh-Madsen, R, Nielsen, J, Nielsen, T. Rune, Olsen, N V, Petersen, N C, Sørensen, T A, and Secher, N H

Abstract

Udgivelsesdato: 2010-Jun, Recombinant human erythropoietin (EPO) increases exercise capacity by stimulating erythropoiesis and subsequently enhancing oxygen delivery to the working muscles. In a large dose, EPO cross the blood brain barrier and may reduce central fatigue and improve cognition. In turn, this would augment exercise capacity independent of erythropoiesis. To test this hypothesis, 15 healthy young males (18-34 yo., 74 +/- 7 kg) received either 3 days of high dose (30,000 IU day(-1), N=7) double-blinded placebo controlled or 3 months of low dose (5,000 IU week(-1), N=8) counter-balanced open but controlled administration of EPO. We recorded exercise capacity, transcranial ultrasonography-derived middle cerebral artery blood velocity, and arterial-internal jugular venous concentration differences of glucose and lactate. In addition, cognitive function, ratings of perceived exertion, ventilation and voluntary activation by transcranial magnetic stimulation-induced twitch force were evaluated. Although EPO in a high dose increased cerebrospinal fluid EPO concentration ~20-fold and affected ventilation and cerebral glucose and lactate metabolism (P<0.05), 3 days high dose EPO administration had no effect on cognition, voluntary activation or exercise capacity but ratings of perceived exertion increased (P<0.05). We confirmed that 3 month's administration of EPO increases exercise capacity, but the improvement could not be accounted for by other mechanisms than enhanced oxygen delivery. In conclusion, EPO does not attenuate central fatigue or changes cognitive performance strategy suggesting that EPO enhances exercise capacity exclusively by increased oxygen delivery to the working muscles.

Published
2010

7. Reduced muscle activation during exercise related to brain oxygenation and metabolism in humans

Author

Rasmussen, Peter, Nielsen, Jannie, Overgaard, M, Krogh-Madsen, R, Gjedde, A, Secher, N H, Petersen, Nicolas Caesar, Rasmussen, P, Nielsen, J, Gjedde, Albert, Petersen, N C, Rasmussen, Peter, Nielsen, Jannie, Overgaard, M, Krogh-Madsen, R, Gjedde, A, Secher, N H, Petersen, Nicolas Caesar, Rasmussen, P, Nielsen, J, Gjedde, Albert, and Petersen, N C

Abstract

Udgivelsesdato: 2010-Jun-1, Maximal exercise may be limited by central fatigue defined as an inability of the central nervous system to fully recruit the involved muscles. This study evaluated whether a reduction in the cerebral oxygen-to-carbohydrate index (OCI) and in the cerebral mitochondrial oxygen tension relate to the ability to generate a maximal voluntary contraction and to the transcranial magnetic stimulated force generation. To determine the role of a reduced OCI and in central fatigue, 16 males performed low intensity, maximal intensity and hypoxic cycling exercise. Exercise fatigue was evaluated by ratings of perceived exertion (RPE), arm maximal voluntary force (MVC), and voluntary activation of elbow flexor muscles assessed with transcranial magnetic stimulation. Low intensity exercise did not produce any indication of central fatigue or marked cerebral metabolic deviations. Exercise in hypoxia (0.10) reduced cerebral oxygen delivery 25% and decreased 11+/-4 mmHg (P<0.001) together with OCI (6.2+/-0.7 to 4.8+/-0.5, P<0.001). RPE increased while MVC and voluntary activation were reduced (P<0.05). During maximal exercise declined 8+/-4 mmHg (P<0.05) and OCI to 3.8+/-0.5 (P<0.001). RPE was 18.5, and MVC and voluntary activation were reduced (P<0.05). We observed no signs of muscular fatigue in the elbow flexors and all control MVCs were similar to resting values. Exhaustive exercise provoked cerebral deoxygenation, metabolic changes and indices of fatigue similar to those observed during exercise in hypoxia indicating that reduced cerebral oxygenation may play a role in the development of central fatigue and may be an exercise capacity limiting factor.

Published
2010

8. RBP-to-retinol ratio, but not total RBP, is elevated in patients with type 2 diabetes

Author

Erikstrup, C, Mortensen, Ole Hartvig, Nielsen, A R, Fischer, C P, Plomgaard, P, Krogh-Madsen, R, Lindegaard, B, Erhardt, J G, Ullum, H, Benn, C S, Pedersen, B K, Erikstrup, C, Mortensen, Ole Hartvig, Nielsen, A R, Fischer, C P, Plomgaard, P, Krogh-Madsen, R, Lindegaard, B, Erhardt, J G, Ullum, H, Benn, C S, and Pedersen, B K

Abstract

Udgivelsesdato: 2009-Mar, AIM: It was recently reported that serum retinol-binding protein (RBP), also known as retinol-binding protein 4 (RBP4), was positively associated with systemic insulin resistance. We hypothesized that an imbalance between RBP and retinol might be the underlying cause for this association. METHODS: We studied the ratio between RBP and retinol in 233 humans divided into groups depending on normal glucose tolerance (NGT), impaired glucose tolerance (IGT), type 2 diabetes (T2DM) and presence or absence of obesity. RESULTS: Plasma RBP and retinol levels were lower in patients with T2DM than in individuals with NGT (p < 0.05 and p < 0.0001 respectively). In contrast, RBP-to-retinol ratio was higher in individuals with T2DM (p < 0.0001) and IGT (p < 0.05). Following multivariate adjustment, RBP and retinol correlated positively with low-density lipoprotein (LDL) and triglycerides (p < 0.0001, except retinol and LDL: p < 0.001). RBP-to-retinol ratio correlated positively with glucose 2 h after an oral glucose tolerance test (p < 0.0001) and with C-reactive protein (p < 0.001). Retinol, RBP and adipose tissue RBP messenger RNA (mRNA) levels shared an inverse relationship with plasma interleukin-6, and adipose tissue RBP mRNA levels correlated positively with plasma tumour necrosis factor-alpha (TNF-alpha) and skeletal muscle TNF-alpha mRNA levels. CONCLUSIONS: Our results suggest that the excess of RBP relative to retinol, assessed as the RBP-to-retinol ratio, is more indicative of T2DM than RBP itself. Hence, the previously reported insulin resistance in mice induced by overexpression or injection of RBP could be because of higher levels of RBP relative to retinol rather than higher total levels of RBP. Moreover, TNF-alpha may have a role in RBP-mediated adipose to muscle crosstalk.

Published
2009

9. RBP-to-retinol ratio, but not total RBP, is elevated in patients with type 2 diabetes

Author

Erikstrup, C, Mortensen, Ole Hartvig, Nielsen, A R, Fischer, C P, Plomgaard, P, Krogh-Madsen, R, Lindegaard, B, Erhardt, J G, Ullum, H, Benn, C S, Pedersen, B K, Erikstrup, C, Mortensen, Ole Hartvig, Nielsen, A R, Fischer, C P, Plomgaard, P, Krogh-Madsen, R, Lindegaard, B, Erhardt, J G, Ullum, H, Benn, C S, and Pedersen, B K

Abstract

Udgivelsesdato: 2009-Mar, AIM: It was recently reported that serum retinol-binding protein (RBP), also known as retinol-binding protein 4 (RBP4), was positively associated with systemic insulin resistance. We hypothesized that an imbalance between RBP and retinol might be the underlying cause for this association. METHODS: We studied the ratio between RBP and retinol in 233 humans divided into groups depending on normal glucose tolerance (NGT), impaired glucose tolerance (IGT), type 2 diabetes (T2DM) and presence or absence of obesity. RESULTS: Plasma RBP and retinol levels were lower in patients with T2DM than in individuals with NGT (p < 0.05 and p < 0.0001 respectively). In contrast, RBP-to-retinol ratio was higher in individuals with T2DM (p < 0.0001) and IGT (p < 0.05). Following multivariate adjustment, RBP and retinol correlated positively with low-density lipoprotein (LDL) and triglycerides (p < 0.0001, except retinol and LDL: p < 0.001). RBP-to-retinol ratio correlated positively with glucose 2 h after an oral glucose tolerance test (p < 0.0001) and with C-reactive protein (p < 0.001). Retinol, RBP and adipose tissue RBP messenger RNA (mRNA) levels shared an inverse relationship with plasma interleukin-6, and adipose tissue RBP mRNA levels correlated positively with plasma tumour necrosis factor-alpha (TNF-alpha) and skeletal muscle TNF-alpha mRNA levels. CONCLUSIONS: Our results suggest that the excess of RBP relative to retinol, assessed as the RBP-to-retinol ratio, is more indicative of T2DM than RBP itself. Hence, the previously reported insulin resistance in mice induced by overexpression or injection of RBP could be because of higher levels of RBP relative to retinol rather than higher total levels of RBP. Moreover, TNF-alpha may have a role in RBP-mediated adipose to muscle crosstalk.

Published
2009

11. Effect of short-term intralipid infusion on the immune response during low-dose endotoxemia in humans

Author

Krogh-Madsen, R., Plomgaard, P., Åkerström, Thorbjörn, Møller, Kirsten, Schmitz, Ole, Pedersen, Bente Klarlund, Krogh-Madsen, R., Plomgaard, P., Åkerström, Thorbjörn, Møller, Kirsten, Schmitz, Ole, and Pedersen, Bente Klarlund

Abstract

Novel anti-inflammatory effects of insulin have recently been described, and insulin therapy to maintain euglycemia suppresses the plasma levels of free fatty acids (FFA) and increases the survival of critically ill patients. We aimed to explore the effect of short-term high levels of plasma FFA on the inflammatory response to a low dose of endotoxin. Fourteen healthy male volunteers underwent the following two trials in a randomized crossover design: 1) continuous infusion of 20% Intralipid [0.7 ml.kg(-1).h(-1) (1.54 g/kg)] for 11 h, and 2) infusion of isotonic saline for 11 h (control). In each trial, heparin was given to activate lipoprotein lipase, and an intravenous bolus of endotoxin (0.1 ng/kg) was given after 6 h of Intralipid/saline infusion. Blood samples and muscle and fat biopsies were obtained before the Intralipid/saline infusion and before as well as after infusion of an endotoxin bolus. Plasma levels of FFA, triglycerides, and glycerol were markedly increased during the Intralipid infusion. Endotoxin exposure induced an increase in plasma levels of TNF-alpha, IL-6, and neutrophils and further stimulated gene expression of TNF-alpha and IL-6 in both skeletal muscle and adipose tissue. The systemic inflammatory response to endotoxin was significantly pronounced during Intralipid infusion. Short-term hyperlipidemia enhances the inflammatory response to endotoxin, and skeletal muscle and adipose tissue are capable of producing essential inflammatory mediators after endotoxin stimulation Udgivelsesdato: 2008/2

Published
2008

12. Human endotoxemia as a model of systemic inflammation

Author

Krabbe, K.S., Krogh-Madsen, R., Taudorf, S., Pedersen, B.K., Moller, K., Andreasen, Anne Sofie, Krabbe, K.S., Krogh-Madsen, R., Taudorf, S., Pedersen, B.K., Moller, K., and Andreasen, Anne Sofie

Abstract

Systemic inflammation is a pathogenetic component in a vast number of acute and chronic diseases such as sepsis, trauma, type 2 diabetes, atherosclerosis, and Alzheimer's disease, all of which are associated with a substantial morbidity and mortality. However, the molecular mechanisms and physiological significance of the systemic inflammatory response are still not fully understood. The human endotoxin model, an in vivo model of systemic inflammation in which lipopolysaccharide is injected or infused intravenously in healthy volunteers, may be helpful in unravelling these issues. The present review addresses the basic changes that occur in this model. The activation of inflammatory cascades as well as organ-specific haemodynamic and functional changes after lipopolysaccharide are described, and the limitations of human-experimental models for the study of clinical disease are discussed. Finally, we outline the ethical considerations that apply to the use of human endotoxin model Udgivelsesdato: 2008

Published
2008

13. Effect of short-term intralipid infusion on the immune response during low-dose endotoxemia in humans

Author

Krogh-Madsen, R., Plomgaard, P., Åkerström, Thorbjörn, Møller, Kirsten, Schmitz, Ole, Pedersen, Bente Klarlund, Krogh-Madsen, R., Plomgaard, P., Åkerström, Thorbjörn, Møller, Kirsten, Schmitz, Ole, and Pedersen, Bente Klarlund

Abstract

Novel anti-inflammatory effects of insulin have recently been described, and insulin therapy to maintain euglycemia suppresses the plasma levels of free fatty acids (FFA) and increases the survival of critically ill patients. We aimed to explore the effect of short-term high levels of plasma FFA on the inflammatory response to a low dose of endotoxin. Fourteen healthy male volunteers underwent the following two trials in a randomized crossover design: 1) continuous infusion of 20% Intralipid [0.7 ml.kg(-1).h(-1) (1.54 g/kg)] for 11 h, and 2) infusion of isotonic saline for 11 h (control). In each trial, heparin was given to activate lipoprotein lipase, and an intravenous bolus of endotoxin (0.1 ng/kg) was given after 6 h of Intralipid/saline infusion. Blood samples and muscle and fat biopsies were obtained before the Intralipid/saline infusion and before as well as after infusion of an endotoxin bolus. Plasma levels of FFA, triglycerides, and glycerol were markedly increased during the Intralipid infusion. Endotoxin exposure induced an increase in plasma levels of TNF-alpha, IL-6, and neutrophils and further stimulated gene expression of TNF-alpha and IL-6 in both skeletal muscle and adipose tissue. The systemic inflammatory response to endotoxin was significantly pronounced during Intralipid infusion. Short-term hyperlipidemia enhances the inflammatory response to endotoxin, and skeletal muscle and adipose tissue are capable of producing essential inflammatory mediators after endotoxin stimulation Udgivelsesdato: 2008/2

Published
2008

15. Human endotoxemia as a model of systemic inflammation

Author

Krabbe, K.S., Krogh-Madsen, R., Taudorf, S., Pedersen, B.K., Moller, K., Andreasen, Anne Sofie, Krabbe, K.S., Krogh-Madsen, R., Taudorf, S., Pedersen, B.K., Moller, K., and Andreasen, Anne Sofie

Abstract

Systemic inflammation is a pathogenetic component in a vast number of acute and chronic diseases such as sepsis, trauma, type 2 diabetes, atherosclerosis, and Alzheimer's disease, all of which are associated with a substantial morbidity and mortality. However, the molecular mechanisms and physiological significance of the systemic inflammatory response are still not fully understood. The human endotoxin model, an in vivo model of systemic inflammation in which lipopolysaccharide is injected or infused intravenously in healthy volunteers, may be helpful in unravelling these issues. The present review addresses the basic changes that occur in this model. The activation of inflammatory cascades as well as organ-specific haemodynamic and functional changes after lipopolysaccharide are described, and the limitations of human-experimental models for the study of clinical disease are discussed. Finally, we outline the ethical considerations that apply to the use of human endotoxin model Udgivelsesdato: 2008

Published
2008

16. Associations between insulin resistance and TNF-alpha in plasma, skeletal muscle and adipose tissue in humans with and without type 2 diabetes

Author

Plomgaard, P, Nielsen, A R, Fischer, C P, Mortensen, O H, Broholm, C, Penkowa, M, Krogh-Madsen, R, Erikstrup, C, Lindegaard, B, Petersen, A M W, Taudorf, S, Pedersen, B K, Plomgaard, P, Nielsen, A R, Fischer, C P, Mortensen, O H, Broholm, C, Penkowa, M, Krogh-Madsen, R, Erikstrup, C, Lindegaard, B, Petersen, A M W, Taudorf, S, and Pedersen, B K

Abstract

Udgivelsesdato: 2007-Dec, AIMS/HYPOTHESIS: Clear evidence exists that TNF-alpha inhibits insulin signalling and thereby glucose uptake in myocytes and adipocytes. However, conflicting results exist with regard to the role of TNF-alpha in type 2 diabetes. METHODS: We obtained blood and biopsy samples from skeletal muscle and subcutaneous adipose tissue in patients with type 2 diabetes (n = 96) and healthy controls matched for age, sex and BMI (n = 103). RESULTS: Patients with type 2 diabetes had higher plasma levels of fasting insulin (p < 0.0001) and glucose (p < 0.0001) compared with controls, but there was no difference between groups with regard to fat mass. Plasma levels of TNF-alpha (p = 0.0009) and soluble TNF receptor 2 (sTNFR2; p = 0.002) were elevated in diabetic patients. Insulin sensitivity was correlated with quartiles of plasma TNF-alpha after adjustment for age, sex, obesity, WHR, neutrophils, IL-6 and maximum O(2) uptake (VO2/kg) in the diabetes group (p < 0.05). The TNF mRNA content of adipose or muscle tissue did not differ between the groups, whereas muscle TNF-alpha protein content, evaluated by western blotting, was higher in type 2 diabetic patients. Immunohistochemistry revealed more TNF-alpha protein in type 2 than in type 1 muscle fibres. CONCLUSIONS/INTERPRETATION: After adjustment for multiple confounders, plasma TNF-alpha is associated with insulin resistance. This supports the idea that TNF-alpha plays a significant role in the pathogenesis of chronic insulin resistance in humans. However, findings on the TNF-alpha protein levels in plasma and skeletal muscle indicate that measurement of TNF mRNA content in adipose or muscle tissue provides no information with regard to the degree of insulin resistance.

Published
2007

17. Associations between insulin resistance and TNF-alpha in plasma, skeletal muscle and adipose tissue in humans with and without type 2 diabetes

Author

Plomgaard, P, Nielsen, A R, Fischer, C P, Mortensen, O H, Broholm, C, Penkowa, M, Krogh-Madsen, R, Erikstrup, C, Lindegaard, B, Petersen, A M W, Taudorf, S, Pedersen, B K, Plomgaard, P, Nielsen, A R, Fischer, C P, Mortensen, O H, Broholm, C, Penkowa, M, Krogh-Madsen, R, Erikstrup, C, Lindegaard, B, Petersen, A M W, Taudorf, S, and Pedersen, B K

Abstract

Udgivelsesdato: 2007-Dec, AIMS/HYPOTHESIS: Clear evidence exists that TNF-alpha inhibits insulin signalling and thereby glucose uptake in myocytes and adipocytes. However, conflicting results exist with regard to the role of TNF-alpha in type 2 diabetes. METHODS: We obtained blood and biopsy samples from skeletal muscle and subcutaneous adipose tissue in patients with type 2 diabetes (n = 96) and healthy controls matched for age, sex and BMI (n = 103). RESULTS: Patients with type 2 diabetes had higher plasma levels of fasting insulin (p < 0.0001) and glucose (p < 0.0001) compared with controls, but there was no difference between groups with regard to fat mass. Plasma levels of TNF-alpha (p = 0.0009) and soluble TNF receptor 2 (sTNFR2; p = 0.002) were elevated in diabetic patients. Insulin sensitivity was correlated with quartiles of plasma TNF-alpha after adjustment for age, sex, obesity, WHR, neutrophils, IL-6 and maximum O(2) uptake (VO2/kg) in the diabetes group (p < 0.05). The TNF mRNA content of adipose or muscle tissue did not differ between the groups, whereas muscle TNF-alpha protein content, evaluated by western blotting, was higher in type 2 diabetic patients. Immunohistochemistry revealed more TNF-alpha protein in type 2 than in type 1 muscle fibres. CONCLUSIONS/INTERPRETATION: After adjustment for multiple confounders, plasma TNF-alpha is associated with insulin resistance. This supports the idea that TNF-alpha plays a significant role in the pathogenesis of chronic insulin resistance in humans. However, findings on the TNF-alpha protein levels in plasma and skeletal muscle indicate that measurement of TNF mRNA content in adipose or muscle tissue provides no information with regard to the degree of insulin resistance.

Published
2007

18. Brain-derived neurotrophic factor (BDNF) and type 2 diabetes.

Author

Krabbe, K. S., Nielsen, A. R., Krogh-Madsen, R., Plomgaard, P., Rasmussen, P., Erikstrup, C., Fischer, C. P., Lindegaard, B., Petersen, A. M., Taudorf, S., Secher, N. H., Pilegaard, H., Bruunsgaard, H., Pedersen, B. K., Krabbe, K. S., Nielsen, A. R., Krogh-Madsen, R., Plomgaard, P., Rasmussen, P., Erikstrup, C., Fischer, C. P., Lindegaard, B., Petersen, A. M., Taudorf, S., Secher, N. H., Pilegaard, H., Bruunsgaard, H., and Pedersen, B. K.

Abstract

Aims/hypothesis Decreased levels of brain-derived neurotrophic factor (BDNF) have been implicated in the pathogenesis of Alzheimer's disease and depression. These disorders are associated with type 2 diabetes, and animal models suggest that BDNF plays a role in insulin resistance. We therefore explored whether BDNF plays a role in human glucose metabolism. Subjects and methods We included (Study 1) 233 humans divided into four groups depending on presence or absence of type 2 diabetes and presence or absence of obesity; and (Study 2) seven healthy volunteers who underwent both a hyperglycaemic and a hyperinsulinaemic-euglycaemic clamp. Results Plasma levels of BDNF in Study 1 were decreased in humans with type 2 diabetes independently of obesity. Plasma BDNF was inversely associated with fasting plasma glucose, but not with insulin. No association was found between the BDNF G196A (Val66Met) polymorphism and diabetes or obesity. In Study 2 an output of BDNF from the human brain was detected at basal conditions. This output was inhibited when blood glucose levels were elevated. In contrast, when plasma insulin was increased while maintaining normal blood glucose, the cerebral output of BDNF was not inhibited, indicating that high levels of glucose, but not insulin, inhibit the output of BDNF from the human brain. Conclusions/interpretation Low levels of BDNF accompany impaired glucose metabolism. Decreased BDNF may be a pathogenetic factor involved not only in dementia and depression, but also in type 2 diabetes, potentially explaining the clustering of these conditions in epidemiological studies.

Published
2006

19. Brain-derived neurotrophic factor (BDNF) and type 2 diabetes.

Author

Krabbe, K. S., Nielsen, A. R., Krogh-Madsen, R., Plomgaard, P., Rasmussen, P., Erikstrup, C., Fischer, C. P., Lindegaard, B., Petersen, A. M., Taudorf, S., Secher, N. H., Pilegaard, H., Bruunsgaard, H., Pedersen, B. K., Krabbe, K. S., Nielsen, A. R., Krogh-Madsen, R., Plomgaard, P., Rasmussen, P., Erikstrup, C., Fischer, C. P., Lindegaard, B., Petersen, A. M., Taudorf, S., Secher, N. H., Pilegaard, H., Bruunsgaard, H., and Pedersen, B. K.

Abstract

Aims/hypothesis Decreased levels of brain-derived neurotrophic factor (BDNF) have been implicated in the pathogenesis of Alzheimer's disease and depression. These disorders are associated with type 2 diabetes, and animal models suggest that BDNF plays a role in insulin resistance. We therefore explored whether BDNF plays a role in human glucose metabolism. Subjects and methods We included (Study 1) 233 humans divided into four groups depending on presence or absence of type 2 diabetes and presence or absence of obesity; and (Study 2) seven healthy volunteers who underwent both a hyperglycaemic and a hyperinsulinaemic-euglycaemic clamp. Results Plasma levels of BDNF in Study 1 were decreased in humans with type 2 diabetes independently of obesity. Plasma BDNF was inversely associated with fasting plasma glucose, but not with insulin. No association was found between the BDNF G196A (Val66Met) polymorphism and diabetes or obesity. In Study 2 an output of BDNF from the human brain was detected at basal conditions. This output was inhibited when blood glucose levels were elevated. In contrast, when plasma insulin was increased while maintaining normal blood glucose, the cerebral output of BDNF was not inhibited, indicating that high levels of glucose, but not insulin, inhibit the output of BDNF from the human brain. Conclusions/interpretation Low levels of BDNF accompany impaired glucose metabolism. Decreased BDNF may be a pathogenetic factor involved not only in dementia and depression, but also in type 2 diabetes, potentially explaining the clustering of these conditions in epidemiological studies.

Published
2006

20. Brain-derived neurotrophic factor (BDNF) and type 2 diabetes.

Author

Krabbe, K. S., Nielsen, A. R., Krogh-Madsen, R., Plomgaard, P., Rasmussen, P., Erikstrup, C., Fischer, C. P., Lindegaard, B., Petersen, A. M., Taudorf, S., Secher, N. H., Pilegaard, H., Bruunsgaard, H., Pedersen, B. K., Krabbe, K. S., Nielsen, A. R., Krogh-Madsen, R., Plomgaard, P., Rasmussen, P., Erikstrup, C., Fischer, C. P., Lindegaard, B., Petersen, A. M., Taudorf, S., Secher, N. H., Pilegaard, H., Bruunsgaard, H., and Pedersen, B. K.

Abstract

Aims/hypothesis Decreased levels of brain-derived neurotrophic factor (BDNF) have been implicated in the pathogenesis of Alzheimer's disease and depression. These disorders are associated with type 2 diabetes, and animal models suggest that BDNF plays a role in insulin resistance. We therefore explored whether BDNF plays a role in human glucose metabolism. Subjects and methods We included (Study 1) 233 humans divided into four groups depending on presence or absence of type 2 diabetes and presence or absence of obesity; and (Study 2) seven healthy volunteers who underwent both a hyperglycaemic and a hyperinsulinaemic-euglycaemic clamp. Results Plasma levels of BDNF in Study 1 were decreased in humans with type 2 diabetes independently of obesity. Plasma BDNF was inversely associated with fasting plasma glucose, but not with insulin. No association was found between the BDNF G196A (Val66Met) polymorphism and diabetes or obesity. In Study 2 an output of BDNF from the human brain was detected at basal conditions. This output was inhibited when blood glucose levels were elevated. In contrast, when plasma insulin was increased while maintaining normal blood glucose, the cerebral output of BDNF was not inhibited, indicating that high levels of glucose, but not insulin, inhibit the output of BDNF from the human brain. Conclusions/interpretation Low levels of BDNF accompany impaired glucose metabolism. Decreased BDNF may be a pathogenetic factor involved not only in dementia and depression, but also in type 2 diabetes, potentially explaining the clustering of these conditions in epidemiological studies.

Published
2006

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