Search

Your search keyword '"Glatz, J.F."' showing total 31 results
Start Over Author "Glatz, J.F."
31 results on '"Glatz, J.F."'

1. MRS: a noninvasive window into cardiac metabolism

Author

van Ewijk, P.A., Schrauwen-Hinderling, V.B., Bekkers, S.C., Glatz, J.F., Wildberger, J.E., Kooi, M.E., Beeldvorming, Cardiologie, Moleculaire Genetica, RS: NUTRIM - R1 - Metabolic Syndrome, RS: NUTRIM - HB/BW section B, RS: CARIM - R3 - Vascular biology, and RS: CARIM - R2 - Cardiac function and failure

Abstract

A well-functioning heart requires a constant supply of a balanced mixture of nutrients to be used for the production of adequate amounts of adenosine triphosphate, which is the main energy source for most cellular functions. Defects in cardiac energy metabolism are linked to several myocardial disorders. MRS can be used to study in vivo changes in cardiac metabolism noninvasively. MR techniques allow repeated measurements, so that disease progression and the response to treatment or to a lifestyle intervention can be monitored. It has also been shown that MRS can predict clinical heart failure and death. This article focuses on in vivo MRS to assess cardiac metabolism in humans and experimental animals, as experimental animals are often used to investigate the mechanisms underlying the development of metabolic diseases. Various MR techniques, such as cardiac 31 P-MRS, 1 H-MRS, hyperpolarized 13 C-MRS and Dixon MRI, are described. A short overview of current and emerging applications is given. Cardiac MRS is a promising technique for the investigation of the relationship between cardiac metabolism and cardiac disease. However, further optimization of scan time and signal-to-noise ratio is required before broad clinical application. In this respect, the ongoing development of advanced shimming algorithms, radiofrequency pulses, pulse sequences, (multichannel) detection coils, the use of hyperpolarized nuclei and scanning at higher magnetic field strengths offer future perspective for clinical applications of MRS. Copyright (c) 2015 John Wiley & Sons, Ltd.

Published
2015

2. Lipids in metabolic health and disease

Author

Glatz, J.F., Glatz, J.F., de Groot, R.H.M., Hesselink, M.K.C., Schrauwen, P., Glatz, J.F., Glatz, J.F., de Groot, R.H.M., Hesselink, M.K.C., and Schrauwen, P.

Published
2011

3. Het hart in balans

Author

Glatz, J.F., Glatz, J.F., Glatz, J.F., and Glatz, J.F.

Published
2004

4. Effects of high-fat feeding on ectopic fat storage and postprandial lipid metabolism in mouse offspring

Author

van Ewijk, P.A., van Ewijk, P.A., Paglialunga, S.A., Kooi, M.E., Nunes, P.M., Gemmink, A., Slenter, J., Moonen Kornips, E., Jorgensen, J.A., Hoeks, J., Wildberger, J.E., Hesselink, M.K., Glatz, J.F., Heerschap, A., Kersten, S., Schrauwen, P., Schrauwen-Hinderling, V.B., van Ewijk, P.A., van Ewijk, P.A., Paglialunga, S.A., Kooi, M.E., Nunes, P.M., Gemmink, A., Slenter, J., Moonen Kornips, E., Jorgensen, J.A., Hoeks, J., Wildberger, J.E., Hesselink, M.K., Glatz, J.F., Heerschap, A., Kersten, S., Schrauwen, P., and Schrauwen-Hinderling, V.B.

Abstract

OBJECTIVE: Parental high-fat feeding was proposed to negatively impact metabolic health in offspring. Here, the ectopic fat storage in heart and liver in offspring was investigated, and the effects on mitochondrial function, de novo lipogenesis, and postprandial lipid metabolism were explored in detail. METHODS: Male and female mice received either a high-fat (HF) or standard chow (LF) diet during mating, gestation and lactation. All offspring animals received the HF diet. RESULTS: Abdominal visceral adipose tissue tended to be higher in HF/HF mice. Cardiac lipid content was also higher in the HF/HF mice (LF/HF vs. HF/HF: 1.03% +/- 0.08% vs. 1.33% +/- 0.07% of water signal, P = 0.01). In contrast, hepatic lipid content tended to be lower in HF/HF mice compared to LF/HF mice. A severely disturbed postprandial lipid clearance was revealed in HF/HF mice by the results from the triglyceride (TG) tolerance tests (LF/HF vs. HF/HF: 6,753 +/- 2,213 vs. 14,367 +/- 1,978 mmol l(-1) min(-1) , P = 0.01) and (13) C-fatty acid retention test (LF/HF vs. HF/HF: 2.73% +/- 0.85% vs. 0.89% +/- 0.26% retention from bolus, P = 0.04), which may underlie the lower hepatic lipid content. CONCLUSIONS: Here it is shown that HF diet negatively impacts postprandial TG clearance in offspring and results in an overall metabolic unfavorable phenotype and ectopic lipid deposition in the heart and in visceral storage sites.

Published
2015

5. Gezondheidsaspecten van vetten en vetzuren

Author

Glatz, J.F., de Groot, R., Hesselink, M.K., Schrauwen, P., Molecular Genetics, Psychiatrie & Neuropsychologie, Nutrition and Movement Sciences, Humane Biologie, and RS: NUTRIM - R1 - Metabolic Syndrome

Published
2010

6. Lack of UCP3 does not affect skeletal muscle mitochondrial function under lipid-challenged conditions, but leads to sudden cardiac death.

Author

Nabben, M., Nabben, M., van Bree, B.W., Lenaers, E., Hoeks, J., Hesselink, M.K., Schaart, G., Gijbels, M.J., Glatz, J.F., da Silva, G.J., De Windt, L.J., Tian, R., Mike, E., Skapura, D.G., Wehrens, X.H., Schrauwen, P., Nabben, M., Nabben, M., van Bree, B.W., Lenaers, E., Hoeks, J., Hesselink, M.K., Schaart, G., Gijbels, M.J., Glatz, J.F., da Silva, G.J., De Windt, L.J., Tian, R., Mike, E., Skapura, D.G., Wehrens, X.H., and Schrauwen, P.

Abstract

UCP3's exact physiological function in lipid handling in skeletal and cardiac muscle remains unknown. Interestingly, etomoxir, a fat oxidation inhibitor and strong inducer of UCP3, is proposed for treating both diabetes and heart failure. We hypothesize that the upregulation of UCP3 upon etomoxir serves to protect mitochondria against lipotoxicity. To evaluate UCP3's role in skeletal muscle (skm) and heart under lipid-challenged conditions, the effect of UCP3 ablation was examined in a state of dysbalance between fat availability and oxidative capacity. Wild type (WT) and UCP3(-/-) mice were subjected to high-fat feeding for 14 days. From day 6 onwards, they were given either saline or etomoxir. Etomoxir treatment induced an increase in markers of lipotoxicity in skm compared to saline. This increase upon etomoxir was similar for both, WT and UCP3(-/-) mice, suggesting that UCP3 does not play a role in protection against lipotoxicity. Interestingly, we observed 25 % mortality in UCP3(-/-)s upon etomoxir administration vs. 11 % in WTs. This increased mortality in UCP3(-/-) compared to WT mice could not be explained by differences in cardiac lipotoxicity, apoptosis, fibrosis (histology, immunohistochemistry), oxidative capacity (respirometry) or function (echocardiography). Electrophysiology demonstrated, however, prolonged QRS and QTc intervals and greater susceptibility to ventricular tachycardia upon programmed electrical stimulation in etomoxir-treated UCP3(-/-)s versus WTs. Isoproterenol administration after pacing resulted in 75 % mortality in UCP3(-/-)s vs. 14 % in WTs. Our results argue against a protective role for UCP3 on skm metabolism under lipid overload, but suggest UCP3 to be crucial in prevention of arrhythmias upon lipid-challenged conditions.

Published
2014

7. Increased intramyocellular lipids but unaltered in vivo mitochondrial oxidative phosphorylation in skeletal muscle of adipose triglyceride lipase-deficient mice.

Author

Nunes, P.M., Nunes, P.M., van de Weijer, T., Veltien, A., Arnts, H., Hesselink, M.K.C., Glatz, J.F., Schrauwen, P., Tack, C., Heerschap, A., Nunes, P.M., Nunes, P.M., van de Weijer, T., Veltien, A., Arnts, H., Hesselink, M.K.C., Glatz, J.F., Schrauwen, P., Tack, C., and Heerschap, A.

Abstract

Nunes PM, van de Weijer T, Veltien A, Arnts H, Hesselink MK, Glatz JF, Schrauwen P, Tack CJ, Heerschap A. Increased intramyocellular lipids but unaltered in vivo mitochondrial oxidative phosphorylation in skeletal muscle of adipose triglyceride lipase-deficient mice. Am J Physiol Endocrinol Metab 303: E71-E81, 2012. First published April 10, 2012; doi: 10.1152/ajpendo.00597.2011.-Adipose triglyceride lipase (ATGL) is a lipolytic enzyme that is highly specific for triglyceride hydrolysis. The ATGL-knockout mouse (ATGL(-/-)) accumulates lipid droplets in various tissues, including skeletal muscle, and has poor maximal running velocity and endurance capacity. In this study, we tested whether abnormal lipid accumulation in skeletal muscle impairs mitochondrial oxidative phosphorylation, and hence, explains the poor muscle performance of ATGL(-/-) mice. In vivo H-1 magnetic resonance spectroscopy of the tibialis anterior of ATGL(-/-) mice revealed that its intramyocellular lipid pool is approximately sixfold higher than in WT controls (P = 0.0007). In skeletal muscle of ATGL(-/-) mice, glycogen content was decreased by 30% (P <0.05). In vivo 31P magnetic resonance spectra of resting muscles showed that WT and ATGL(-/-) mice have a similar energy status: [PCr], [P-i], PCr/ATP ratio, PCr/P-i ratio, and intracellular pH. Electrostimulated muscles from WT and ATGL(-/-) mice showed the same PCr depletion and pH reduction. Moreover, the monoexponential fitting of the PCr recovery curve yielded similar PCr recovery times (tau PCr; 54.1 +/- 6.1 s for the ATGL(-/-) and 58.1 +/- 5.8 s for the WT), which means that overall muscular mitochondrial oxidative capacity was comparable between the genotypes. Despite similar in vivo mitochondrial oxidative capacities, the electrostimulated muscles from ATGL(-/-) mice displayed significantly lower force production and increased muscle relaxation time than the WT. These findings suggest that mechanisms other than mitochondrial dysfunct

Published
2012

8. Plasma FFA utilization and FABP content are diminished in forearm skeletal muscle of type 2 diabetic subjects

Author

Blaak, E.E., Wagenmakers, A.J.M., Glatz, J.F., Wolffenbuttel, B.H.R., Kemerink, G.J., Langenberg, C.J.M., Heidendal, G.A.K., Saris, W.H.M., Humane Biologie, Fysiologie, Interne Geneeskunde, MUMC+: DA BV Medische staf (6), Anesthesiologie, Beeldvorming, and RS: NUTRIM School of Nutrition and Translational Research in Metabolism

Abstract

In this study, we investigated the hypothesis that impairments in forearm skeletal muscle free fatty acid (FFA) metabolism are present in patients with type 2 diabetes both in the overnight fasted state and during beta-adrenergic stimulation. Eight obese subjects with type 2 diabetes and eight nonobese controls (Con) were studied using the forearm balance technique and indirect calorimetry during infusion of the stable isotope tracer [U-(13)C]palmitate after an overnight fast and during infusion of the nonselective beta-agonist isoprenaline (Iso, 20 ng. kg lean body mass(-1) x min(-1)). Additionally, activities of mitochondrial enzymes and of cytoplasmatic fatty acid-binding protein (FABP) were determined in biopsies from the vastus lateralis muscle. Both during fasting and Iso infusion, the tracer balance data showed that forearm muscle FFA uptake (Con vs. type 2: fast 449+/-69 vs. 258 +/-42 and Iso 715+/-129 vs. 398+/-70 nmol. 100 ml tissue(-1) x min(-1), P

Published
2000

9. Significance of uncoupling protein 3 in mitochondrial function upon mid- and long-term dietary high-fat exposure

Author

Nabben, M., Nabben, M., Hoeks, J., Kornips, C.F.P., Van Beurden, D., Briedé, J.J., Hesselink, M.K.C., Glatz, J.F., Schrauwen, P., Nabben, M., Nabben, M., Hoeks, J., Kornips, C.F.P., Van Beurden, D., Briedé, J.J., Hesselink, M.K.C., Glatz, J.F., and Schrauwen, P.

Abstract

Uncoupling protein 3 (UCP3) may reduce mitochondrial ROS production, and thereby protect against mitochondrial dysfunction in skeletal muscle. UCP3 has been suggested to specifically fulfill this role under high-fat conditions. Here we show that UCP3 knockout mice indeed have elevated mitochondrial ROS production after short-term (8 weeks) high-fat feeding. After 26 weeks of high-fat feeding, UCP3 knockout mice exhibited reduced mitochondrial function as measured ex vivo in isolated mitochondria. In conclusion, these data suggest that UCP3 may have a role in the protection of mitochondria against lipid-induced mitochondrial dysfunction, but only after long-term exposure to high-fat.

Published
2011

10. Cardiac lipid content is unresponsive to a physical activity training intervention in type 2 diabetic patients, despite improved ejection fraction

Author

Schrauwen-Hinderling, V.B., Schrauwen-Hinderling, V.B., Meex, R.C., Hesselink, M.K.C., van de Weijer, T., Leiner, T., Schar, M., Lamb, H.J., Wildberger, J.E., Glatz, J.F., Schrauwen, P., Kooi, M.E., Schrauwen-Hinderling, V.B., Schrauwen-Hinderling, V.B., Meex, R.C., Hesselink, M.K.C., van de Weijer, T., Leiner, T., Schar, M., Lamb, H.J., Wildberger, J.E., Glatz, J.F., Schrauwen, P., and Kooi, M.E.

Abstract

BACKGROUND: Increased cardiac lipid content has been associated with diabetic cardiomyopathy. We recently showed that cardiac lipid content is reduced after 12 weeks of physical activity training in healthy overweight subjects. The beneficial effect of exercise training on cardiovascular risk is well established and the decrease in cardiac lipid content with exercise training in healthy overweight subjects was accompanied by improved ejection fraction. It is yet unclear whether diabetic patients respond similarly to physical activity training and whether a lowered lipid content in the heart is necessary for improvements in cardiac function. Here, we investigated whether exercise training is able to lower cardiac lipid content and improve cardiac function in type 2 diabetic patients. METHODS: Eleven overweight-to-obese male patients with type 2 diabetes mellitus (age: 58.4 +/- 0.9 years, BMI: 29.9 +/- 0.01 kg/m2) followed a 12-week training program (combination endurance/strength training, three sessions/week). Before and after training, maximal whole body oxygen uptake (VO2max) and insulin sensitivity (by hyperinsulinemic, euglycemic clamp) was determined. Systolic function was determined under resting conditions by CINE-MRI and cardiac lipid content in the septum of the heart by Proton Magnetic Resonance Spectroscopy. RESULTS: VO2max increased (from 27.1 +/- 1.5 to 30.1 +/- 1.6 ml/min/kg, p = 0.001) and insulin sensitivity improved upon training (insulin stimulated glucose disposal (delta Rd of glucose) improved from 5.8 +/- 1.9 to 10.3 +/- 2.0 mumol/kg/min, p = 0.02. Left-ventricular ejection fraction improved after training (from 50.5 +/- 2.0 to 55.6 +/- 1.5%, p = 0.01) as well as cardiac index and cardiac output. Unexpectedly, cardiac lipid content in the septum remained unchanged (from 0.80 +/- 0.22 % to 0.95+/-0.21 %, p = 0.15). CONCLUSIONS: Twelve weeks of progressive endurance/strength training was effective in improving VO2max, insulin sensitivity

Published
2011

11. Exercise-induced modulation of cardiac lipid content in healthy lean young men

Author

Bilet, L., Bilet, L., van de Weijer, T., Hesselink, M.K.C., Glatz, J.F., Lamb, H.J., Wildberger, J.E., Kooi, M.E., Schrauwen, P., Schrauwen-Hinderling, V.B., Bilet, L., Bilet, L., van de Weijer, T., Hesselink, M.K.C., Glatz, J.F., Lamb, H.J., Wildberger, J.E., Kooi, M.E., Schrauwen, P., and Schrauwen-Hinderling, V.B.

Abstract

Cardiac lipid accumulation is associated with decreased cardiac function and energy status (PCr/ATP). It has been suggested that elevated plasma fatty acid (FA) concentrations are responsible for the cardiac lipid accumulation. Therefore, the aim of the present study was to investigate if elevating plasma FA concentrations by exercise results in an increased cardiac lipid content, and if this influences cardiac function and energy status. Eleven male subjects (age 25.4 +/- 1.1 years, BMI 23.6 +/- 0.8 kg/m(2)) performed a 2-h cycling protocol, once while staying fasted and once while ingesting glucose, to create a state of high versus low plasma FA concentrations, respectively. Cardiac lipid content was measured by proton magnetic resonance spectroscopy ((1)H-MRS) at baseline, directly after exercise and again 4 h post-exercise, together with systolic function (by multi-slice cine-MRI) and cardiac energy status (by (31)P-MRS). Plasma FA concentrations were increased threefold during exercise and ninefold during recovery in the fasted state compared with the glucose-fed state (p < 0.01). Cardiac lipid content was elevated at the end of the fasted test day (from 0.26 +/- 0.04 to 0.44 +/- 0.04%, p = 0.003), while it did not change with glucose supplementation (from 0.32 +/- 0.03 to 0.26 +/- 0.05%, p = 0.272). Furthermore, PCr/ATP was decreased by 32% in the high plasma FA state compared with the low FA state (n = 6, p = 0.014). However, in the high FA state, the ejection fraction 4 h post-exercise was higher compared with the low FA state (63 +/- 2 vs. 59 +/- 2%, p = 0.018). Elevated plasma FA concentrations, induced by exercise in the fasted state, lead to increased cardiac lipid content, but do not acutely hamper systolic function. Although the lower cardiac energy status is in line with a lipotoxic action of cardiac lipid content, a causal relationship cannot be proven.

Published
2011

12. Cytochrome P450, peroxisome proliferation, and cytoplasmic fatty acid-binding protein content in liver, heart and kidney of the diabetic rat

Author

Engels, W., van Bilsen, M., Wolffenbuttel, B.H.R., van der Vusse, G.J., Glatz, J.F., Interne Geneeskunde, Fysiologie, and RS: NUTRIM School of Nutrition and Translational Research in Metabolism

Subjects
lipids (amino acids, peptides, and proteins)
Abstract

Diabetes mellitus generally results in an increased systemic fatty acid mobilization which can be associated with an increase in mitochondrial and peroxisomal beta-oxidation of fatty acids in selected tissues. The latter is usually accompanied by a concomitant increase in the tissue content of cytoplasmic fatty acid-binding protein (FABP) which functions in the intracellular translocation of fatty acids. It was previously found that in liver clofibrate-induced proliferation of peroxisomes and increase in FABP expression each are dependent on the induction by cytochrome P4504A1 -mediated (CYP4A1) formation of dicarboxylic acids. We studied whether peroxisome proliferation and an increase of FABP contents in liver, heart and kidney of streptozotocin-induced diabetic rats are also accompanied by an increase of CYP4A1 activity, as this would indicate a possible regulatory role for dicarboxylic acids in peroxisome proliferation and FABP induction in diabetic organs other than liver. In livers of the diabetic rat, a concomitant increase was observed of the activities of CYP4A1 and the peroxisomal key enzyme fatty acyl-CoA oxidase (FACO) and of the FABP content. In the diabetic heart FACO activity and FABP content also increased, but there was no induction of CYP4A1 activity. Conversely, in diabetic kidney there was no increase in FACO activity nor FABP content in spite of a marked induction of CYP4A1 activity. It is concluded that streptozotocin-induced diabetes leads to increased peroxisome proliferation and increased levels of FABP in both liver and heart, which only in liver is accompanied by an induction of the cytochrome P450 system. Consequently, it is not likely that dicarboxylic acids are involved in the induction of peroxisome proliferation in the heart.

Published
1999

13. Improved ejection fraction after exercise training in obesity is accompanied by reduced cardiac lipid content.

Author

Schrauwen-Hinderling, V.B., Schrauwen-Hinderling, V.B., Hesselink, M.K.C., Meex, R.C.R., van der Made, S., Schar, M., Lamb, H., Wildberger, J.E., Glatz, J.F., Snoep, G., Kooi, M.E., Schrauwen, P., Schrauwen-Hinderling, V.B., Schrauwen-Hinderling, V.B., Hesselink, M.K.C., Meex, R.C.R., van der Made, S., Schar, M., Lamb, H., Wildberger, J.E., Glatz, J.F., Snoep, G., Kooi, M.E., and Schrauwen, P.

Abstract

Context: Skeletal muscle and cardiac lipid accumulation are associated with diminished insulin sensitivity and cardiac function, respectively. In skeletal muscle, physical activity paradoxically increases fat accumulation, despite improvement in insulin sensitivity. Whether cardiac muscle responds similarly remains unknown. Objective: The objective of the study was to investigate cardiac lipid content and cardiac function after a 12-wk training program. Design: This was an intervention study with pre/postmeasurements. Setting: The study was conducted at Maastricht University Medical Center. Participants: Participants included 14 healthy, male overweight/obese subjects (age 58.4 +/- 0.9 yr, body mass index 29.9 +/- 0.01 kg/m(2)). Intervention: Intervention included a supervised 12-wk training program with three sessions per week (endurance and strength training). Main Outcome Measures: Maximal whole-body oxygen uptake, fasting plasma parameters, systolic function (by CINE-magnetic resonance imaging), and cardiac lipid content (by proton magnetic resonance spectroscopy) were measured. Results: Maximal whole-body oxygen uptake increased (from 2559 +/- 131 to 2702 +/- 124 ml/min after training, P = 0.05). Plasma concentrations of glucose decreased (from 6.3 +/- 0.2 to 5.7 +/- 0.2 mmol/liter, P < 0.001); plasma triacylglycerols and (free) fatty acids did not change. Also, body weight (from 94.2 +/- 3.6 to 92.9 +/- 3.6 kg, P = 0.10) and fat percentage (from 33.6 +/- 1.7 to 32.5 +/- 2.0%, P = 0.14) was unchanged. Left ventricular ejection fraction improved (from 52.2 +/- 1.3 to 54.2 +/- 1.2%, P = 0.02), and cardiac lipid content in the septum was decreased after training (0.99 +/- 0.15 to 0.54 +/- 0.04%, P = 0.02). Conclusions: Twelve weeks of endurance/strength training significantly reduced cardiac lipid content in overweight subjects and was paralleled by improved ejection fraction. This is in line with a lipotoxic action of (excess) cardiac lipids on cardiac functio

Published
2010

14. Etomoxir-induced partial carnitine palmitoyltransferase-I (CPT-I) inhibition in vivo does not alter cardiac long-chain fatty acid uptake and oxidation rates

Author

Luiken, J.J.F.P., Luiken, J.J.F.P., Niessen, H.E.C., Coort, S.L.M., Hoebers, N., Coumans, W.A., Schwenk, R.W., Bonen, A., Glatz, J.F., Luiken, J.J.F.P., Luiken, J.J.F.P., Niessen, H.E.C., Coort, S.L.M., Hoebers, N., Coumans, W.A., Schwenk, R.W., Bonen, A., and Glatz, J.F.

Abstract

Although CPT-I (carnitine palmitoyltransferase-I) is generally regarded to present a major rate-controlling site in mitochondrial beta-oxidation, it is incompletely understood whether CPT-I is rate-limiting in the overall LCFA (long-chain fatty acid) flux in the heart. Another important site of regulation of the LCFA flux in the heart is trans-sarcolemmal LCFA transport facilitated by CD36 and FABPpm (plasma membrane fatty acid-binding protein). Therefore, we explored to what extent a chronic pharmacological blockade of the LCFA flux at the level of mitochondrial entry of LCFA-CoA would affect sarcolemmal LCFA uptake. Rats were injected daily with saline or etomoxir, a specific CPT-I inhibitor, for 8 days at 20 mg/kg of body mass. Etomoxir-treated rats displayed a 44 % reduced cardiac CPT-I activity. Sarcolemmal contents of CD36 and FABPpm, as well as the LCFA transport capacity, were not altered in the hearts of etomoxir-treated versus control rats. Furthermore, rates of LCFA uptake and oxidation, and glucose uptake by cardiac myocytes from etomoxir-treated rats were not different from control rats, neither under basal nor under acutely induced maximal metabolic demands. Finally, hearts from etomoxir-treated rats did not display triacylglycerol accumulation. Therefore CPT-I appears not to present a major rate-controlling site in total cardiac LCFA flux. It is likely that sarcolemmal LCFA entry rather than mitochondrial LCFA-CoA entry is a promising target for normalizing LCFA flux in cardiac metabolic diseases.

Published
2009

15. The effect of UCP3 overexpression on mitochondrial ROS production in skeletal muscle of young versus aged mice

Author

Nabben, M., Nabben, M., Hoeks, J., Briede, J.J., Glatz, J.F., Kornips, E., Hesselink, M.K., Schrauwen, P., Nabben, M., Nabben, M., Hoeks, J., Briede, J.J., Glatz, J.F., Kornips, E., Hesselink, M.K., and Schrauwen, P.

Abstract

Uncoupling protein 3 (UCP3) is suggested to protect mitochondria against aging and lipid-induced damage, possibly via modulation of reactive oxygen species (ROS) production. Here we show that mice overexpressing UCP3 (UCP3Tg) have a blunted age-induced increase in ROS production, assessed by electron spin resonance spectroscopy, but only after addition of 4-hydroxynonenal (4-HNE). Mitochondrial function, assessed by respirometry, on glycolytic substrate was lower in UCP3Tg mice compared to wild types, whereas this tended to be higher on fatty acids. State 4o respiration was higher in UCP3Tg animals. To conclude, UCP3 overexpression leads to increased state 4o respiration and, in presence of 4-HNE, blunts the age-induced increase in ROS production.

Published
2008

16. Identification of protein kinase D as a novel contraction-activated kinase linked to GLUT4-mediated glucose uptake independent of AMPK

Author

Luiken, J.J.F.P., Luiken, J.J.F.P., Vertommen, D., Coort, S.L.M., Habets, D.D.J., El Hasnaoui, M.M., Pelsers, M.M.A.L., Viollet, B., Bonen, A., Hue, L., Rider, M.H., Glatz, J.F., Luiken, J.J.F.P., Luiken, J.J.F.P., Vertommen, D., Coort, S.L.M., Habets, D.D.J., El Hasnaoui, M.M., Pelsers, M.M.A.L., Viollet, B., Bonen, A., Hue, L., Rider, M.H., and Glatz, J.F.

Abstract

Contraction-induced glucose uptake is only partly mediated by AMPK activation. We examined whether the diacylglycerol-sensitive protein kinase D (PKD; also known as novel PKC isoform mu) is also involved in the regulation of glucose uptake in the contracting heart. As an experimental model, we used suspensions of cardiac myocytes, which were electrically stimulated to contract or treated with the contraction-mimicking agent oligomycin. Induction of contraction at 4 Hz in cardiac myocytes or treatment with 1 mu M oligomycin enhanced (i) autophosphorylation of PKD at Ser916 by 5.1- and 3.8-fold, respectively, (ii) phosphorylation of PKD's downstream target cardiac-troponin-I (cTnI) by 2.9- and 2.1-fold, respectively, and (iii) enzymatic activity of immunoprecipitated PKD towards the substrate peptide syntide-2 each by 1.5-fold. Although AMPK was also activated under these same conditions, in vitro phosphorylation assays and studies with cardiac myocytes from AMPK alpha 2(-/-) mice indicated that activation of PKD occurs independent of AMPK activation. CaMKK beta, and the cardiac-specific PKC isoforms alpha, beta, and epsilon were excluded as upstream kinases for PKD in contraction signaling because none of these kinases were activated by oligomycin. Stimulation of glucose uptake and induction of GLUT4 translocation in cardiac myocytes by contraction and oligomycin each were sensitive to inhibition by the PKC/PKD inhibitors staurosporin and calphostin-C. Together, these data elude to a role of PKD in contraction-induced GLUT4 translocation. Finally, the combined actions of PKD on cTnI phosphorylation and on GLUT4 translocation would efficiently link accelerated contraction mechanics to increased energy production when the heart is forced to increase its contractile activity.

Published
2008

17. Insulin acutely upregulates protein expression of the fatty acid transporter CD36 in human skeletal muscle in vivo

Author

Corpeleijn, E., Corpeleijn, E., Pelsers, M.M., Soenen, S., Mensink, M., Bouwman, F.G., Kooi, M.E., Saris, W.H., Glatz, J.F., Blaak, E.E., Corpeleijn, E., Corpeleijn, E., Pelsers, M.M., Soenen, S., Mensink, M., Bouwman, F.G., Kooi, M.E., Saris, W.H., Glatz, J.F., and Blaak, E.E.

Abstract

Enhanced fatty acid uptake may lead to the accumulation of lipid intermediates. This is related to insulin resistance and type 2 diabetes mellitus. Rodent studies suggest that fatty acid transporters are acutely regulated by insulin. We investigated differences in fatty acid transporter content before and at the end of a hyperinsulinemic euglycemic clamp in skeletal muscle (m. vastus lateralis) of obese, glucose-intolerant men (IGT) and obese normal glucose tolerant controls (NGT). The fatty acid transporter FAT/CD36 protein content increased 1.5-fold (P < 0.05) after 3-hrs of insulin stimulation with no difference between IGT and control subjects. No change was seen in cytosolic fatty acid binding protein (FABPc) protein content. The increase in FAT/CD36 protein content was positively related to insulin resistance as measured during the clamp (r = 0.56, P < 0.05). An increase in FAT/CD36 protein content in skeletal muscle may result in a higher fractional extraction of fatty acids (larger relative uptake) after a meal, enhancing triglyceride accumulation in the muscle. We conclude that also in obese humans the FAT/CD36 protein content in skeletal muscle is dynamically regulated by insulin in vivo on the short term.

Published
2008

18. Skeletal muscle metabolic characteristics before and after energy restriction in human obesity: fibre type, enzymatic beta-oxidative capacity and fatty acid-binding protein content

Author

Kempen, K.P.G., Saris, W.H.M., Kuipers, H., Glatz, J.F., van der Vusse, G.J., Humane Biologie, Bewegingswetenschappen, Fysiologie, and RS: NUTRIM School of Nutrition and Translational Research in Metabolism

Abstract

University of Maastricht, Maastricht, The Netherlands. BACKGROUND: Skeletal muscle has the ability to adapt as result of dietary, hormonal or pharmacological interventions affecting energy metabolism. The aim of the present study was to investigate the effects of energy restriction on skeletal muscle metabolic characteristics in obese women. METHODS: The effects of 8 weeks' energy restriction on body composition, energy expenditure and skeletal muscle characteristics were investigated in 28 healthy obese women. Subjects were aged 37.9 +/- 1.5 years and had a body mass index of 32.0 +/- 0.8 kg m-2. RESULTS: Energy restriction (2800 kJ day-1) resulted in a 10.8 +/- 0.5 kg weight loss consisting of 8. 6 +/- 0.5 kg of fat mass and 2.2 +/- 0.3 kg of fat-free mass. Basal respiratory exchange ratio, sleeping metabolic rate and exercise-induced thermogenesis significantly declined in response to the diet. These changes were accompanied by an increase (P = 0.038) in the skeletal muscle content of cytosolic fatty acid-binding protein (H-FABP), whereas no changes occurred in fibre type distribution or activities of enzymes reflecting beta-oxidation and mitochondrial density (3-hydroxyacyl-CoA dehydrogenase and citrate synthase respectively). CONCLUSION: The results suggest that increased capacity of intracellular fatty acid transport in skeletal muscle cells is involved in the physiological adaptations of fat metabolism to energy restriction in obese female subjects.

Published
1998

19. Cardiac substrate uptake and metabolism in obesity and type-2 diabetes: Role of sarcolemmal substrate transporters

Author

Coort, S.L.M., Coort, S.L.M., Bonen, A., van der Vusse, G.J., Glatz, J.F., Luiken, J.J.F.P., Coort, S.L.M., Coort, S.L.M., Bonen, A., van der Vusse, G.J., Glatz, J.F., and Luiken, J.J.F.P.

Abstract

Cardiovascular disease is the primary cause of death in obesity and type-2 diabetes mellitus (T2DM). Alterations in substrate metabolism are believed to be involved in the development of both cardiac dysfunction and insulin resistance in these conditions. Under physiological circumstances the heart utilizes predominantly long-chain fatty acids (LCFAs) (60-70%), with the remainder covered by carbohydrates, i.e., glucose (20%) and lactate (10%). The cellular uptake of both LCFA and glucose is regulated by the sarcolemmal amount of specific transport proteins, i.e., fatty acid translocase (FAT)/CD36 and GLUT4, respectively. These transport proteins are not only present at the sarcolemma, but also in intracellular storage compartments. Both an increased workload and the hormone insulin induce translocation of FAT/CD36 and GLUT4 to the sarcolemma. In this review, recent findings on the insulin and contraction signalling pathways involved in substrate uptake and utilization by cardiac myocytes under physiological conditions are discussed. New insights in alterations in substrate uptake and utilization during insulin resistance and its progression towards T2DM suggest a pivotal role for substrate transporters. During the development of obesity towards T2DM alterations in cardiac lipid homeostasis were found to precede alterations in glucose homeostasis. In the early stages of T2DM, relocation of FAT/CD36 to the sarcolemma is associated with the myocardial accumulation of triacylglycerols (TAGs) eventually leading to an impaired insulin-stimulated GLUT4-translocation. These novel insights may result in new strategies for the prevention of development of cardiac dysfunction and insulin resistance in obesity and T2DM.

Published
2007

20. Skeletal muscle fatty acid transporter protein expression in type 2 diabetes patients compared with overweight, sedentary men and age-matched, endurance-trained cyclists.

Author

Pelsers, M.M., Pelsers, M.M., Tsintzas, K., Boon, H., Jewell, K., Norton, L., Luiken, J.J.F.P., Glatz, J.F., van Loon, L.J., Pelsers, M.M., Pelsers, M.M., Tsintzas, K., Boon, H., Jewell, K., Norton, L., Luiken, J.J.F.P., Glatz, J.F., and van Loon, L.J.

Abstract

AIM: Membrane fatty acid transporters can modulate the balance between fatty acid uptake and subsequent storage and/or oxidation in muscle tissue. As such, skeletal muscle fatty acid transporter protein expression could play an important role in the etiology of insulin resistance and/or type 2 diabetes. METHODS: In the present study, fatty acid translocase (FAT/CD36), plasma membrane-bound fatty acid-binding protein (FABPpm) and fatty acid transport protein 1 (FATP1) mRNA and protein expression were assessed in muscle tissue obtained from 10 sedentary, overweight type 2 diabetes patients (60 +/- 2 years), 10 sedentary, weight-matched normoglycemic controls (60 +/- 2 years) and 10 age-matched, endurance trained cyclists (57 +/- 1 years). RESULTS: Both FAT/CD36 and FATP1 mRNA and protein expression did not differ between groups. In contrast, FABPpm mRNA and protein expression were approx. 30-40% higher in the trained men compared with the diabetes patients (P < 0.01) and sedentary controls (P < 0.05). CONCLUSIONS: Skeletal muscle FAT/CD36, FABPpm and FATP1 mRNA and protein expression are not up- or downregulated in a sedentary and/or insulin resistant state. In contrast, FABPpm expression is upregulated in the endurance trained state and likely instrumental to allow greater fatty acid oxidation rates.

Published
2007

21. Prolonged AMPK activation increases the expression of fatty acid transporters in cardiac myocytes and perfused hearts

Author

Chabowski, A, Momken I., Chabowski, A, Momken I., Coort, S.L.M., Calles-Escandon, J, Tandon NN., Glatz, J.F., Luiken, J.J.F.P., Bonen, Arend, Chabowski, A, Momken I., Chabowski, A, Momken I., Coort, S.L.M., Calles-Escandon, J, Tandon NN., Glatz, J.F., Luiken, J.J.F.P., and Bonen, Arend

Abstract

Recently, fatty acid transport across the plasma membrane has been shown to be a key process that contributes to the regulation of fatty acid metabolism in the heart. Since AMP kinase activation by 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside (AICAR) stimulates fatty acid oxidation, as well as the expression of selected proteins involved with energy provision, we examined (a) whether AICAR induced the expression of the fatty acid transporters FABPpm and FAT/CD36 in cardiac myocytes and in perfused hearts and (b) the signaling pathway involved. Incubation of cardiac myocytes with AICAR increased the protein expression of the fatty acid transporter FABPpm after 90 min (+27%, P <0.05) and this protein remained stably overexpressed until 180 min. Similarly, FAT/CD36 protein expression was increased after 60 min (+38%, P <0.05) and remained overexpressed thereafter. Protein overexpression, which occurred via transcriptional mechanisms, was dependent on the AICAR concentration, with optimal induction occurring at AICAR concentrations 1-5 mM for FABPpm and at 2-8 mM for FAT/CD36. The AICAR (2 h, 2 mM AICAR) effects on FABPpm and FAT/CD36 protein expression were similar in perfused hearts and in cardiac myocytes. AICAR also induced the plasmalemmal content of FAT/CD36 (+49%) and FABPpm (+42%) (P <0.05). This was accompanied by a marked increase in the rate of palmitate transport (2.5 fold) into giant sarcolemmal vesicles, as well as by increased rates of palmitate oxidation in cardiac myocytes. When the AICAR-induced AMPK phosphorylation was blocked, neither FAT/CD36 nor FABPpm were overexpressed, nor were palmitate uptake and oxidation increased. This study has revealed that AMPK activation stimulates the protein expression of both fatty acid transporters, FAT/CD36 and FABPpm in (a) time- and (b) dose-dependent manner via (c) the AMPK signaling pathway. AICAR also (d) increased the plasmalemmal content of FAT/CD36 and FABPm, thereby (e) increasing the ra

Published
2006

22. Up-regulation of CD36/FAT in preadipocytes in familial combined hyperlipidemia

Author

Meex, S.J.R., Meex, S.J.R., van der Kallen, C.J.H., van Greevenbroek, M.M., Eurlings, P.M., El Hasnaoui, M.M., Evelo, C.T., Lindsey, P.J., Luiken, J.J.F.P., Glatz, J.F., de Bruin, T.W., Meex, S.J.R., Meex, S.J.R., van der Kallen, C.J.H., van Greevenbroek, M.M., Eurlings, P.M., El Hasnaoui, M.M., Evelo, C.T., Lindsey, P.J., Luiken, J.J.F.P., Glatz, J.F., and de Bruin, T.W.

Abstract

Familial combined hyperlipidemia (FCHL) shows many features of the metabolic syndrome. The strong genetic component makes it an excellent model to study the genetic background of metabolic syndrome and insulin resistance. Adipose tissue is believed to contribute to, or even underlie, the FCHL phenotype and is an interesting target tissue for gene expression studies. However, interpretation of adipose tissue gene expression experiments is complex since expression differences cannot only arise as a direct consequence of a genetic trait, but may also reflect an adaptation to metabolic influences at the cellular level. In the present study, we measured gene expression levels in cultured primary human preadipocytes from FCHL and control subjects. Since isolated preadipocytes were allowed to replicate for weeks under standardized conditions, the contribution of previous metabolic influences is rather small whereas genetic defects are preserved and expressed in vitro. The main finding was up-regulation of CD36/FAT in FCHL preadipocytes, confirmed in two independent groups of subjects, and a concomitant increase in CD36/FAT-mediated fatty acid uptake. CD36/FAT overexpression has previously been shown to be associated with other insulin-resistant states. The present data suggest that CD36/FAT overexpression in FCHL occurs very early in adipocyte differentiation and may be of genetic origin.

Published
2005

23. The subcellular compartmentation of fatty acid transporters is regulated differently by insulin and by AICAR

Author

Chabowski, A., Chabowski, A., Coort, S.L.M., Calles-Escandon, J., Tandon, NN., Glatz, J.F., Luiken, J.J.F.P., Bonen, A., Chabowski, A., Chabowski, A., Coort, S.L.M., Calles-Escandon, J., Tandon, NN., Glatz, J.F., Luiken, J.J.F.P., and Bonen, A.

Abstract

Cellular fatty acid uptake is facilitated by a number of fatty acid transporters, FAT/CD36, FABPpm and FATP1. It had been presumed that FABPpm, was confined to the plasma membrane and was not regulated. Here, we demonstrate for the first time that FABPpm and FATP1 are also present in intracellular depots in cardiac myocytes. While we confirmed previous work that insulin and AICAR each induced the translocation of FAT/CD36 from an intracellular depot to the PM, only AI-CAR, but not insulin, induced the translocation of FABPpm. Moreover, neither insulin nor AICAR induced the translocation of FATP1. Importantly, the increased plasmalemmal content of these LCFA transporters was associated with a concomitant increase in the initial rate of palmitate uptake into cardiac myocytes. Specifically, the insulin-stimulated increase in the rate of palmitate uptake (+60%) paralleled the insulin-stimulated increase in plasmalemmal FAT/CD36 (+34%). Similarly, the greater AICAR-stimulated increase in the rate of palmitate uptake (+90%) paralleled the AICAR-induced increase in both plasmalemmal proteins (FAT/CD36 (+40%) + FABPpm (+36%)). Inhibition of palmitate uptake with the specific FAT/CD36 inhibitor SSO indicated that FABPpm interacts with FAT/CD36 at the plasma membrane to facilitate the uptake of palmitate. In conclusion, (1) there appears to be tissue-specific sensitivity to insulin-induced FATP1 translocation, as it has been shown elsewhere that insulin induces FATP1 translocation in 3T3-L1 adipocytes, and (2) clearly, the subcellular distribution of FABPpm, as well as FAT/CD36, is acutely regulated in cardiac myocytes, although FABPpm and FAT/CD36 do not necessarily respond identically to the same stimuli.

Published
2005

24. Brain- and heart-type fatty acid-binding proteins in the brain: tissue distribution and clinical utility.

Author

Pelsers, M.M.A.L., Pelsers, M.M.A.L., Hanhoff, T., van der Voort, D., Arts, B., Peters, M., Ponds, R.W.H.M., Honig, A., Rudzinski, W., Spener, F., de Kruijk, J.R., Twijnstra, A., Hermens, W.T., Menheere, P.P.C.A., Glatz, J.F., Pelsers, M.M.A.L., Pelsers, M.M.A.L., Hanhoff, T., van der Voort, D., Arts, B., Peters, M., Ponds, R.W.H.M., Honig, A., Rudzinski, W., Spener, F., de Kruijk, J.R., Twijnstra, A., Hermens, W.T., Menheere, P.P.C.A., and Glatz, J.F.

Abstract

Background: Detection of brain injury by serum markers is not a standard procedure in clinical practice, although several proteins, such as S100B, neuron-specific enolase (NSE), myelin basic protein, and glial fibrillary acidic protein, show promising results. We investigated the tissue distribution of brain- and heart-type fatty acid-binding proteins (B-FABP and H-FABP) in segments of the human brain and the potential of either protein to serve as plasma marker for diagnosis of brain injury. Methods: B-FABP and H-FABP were measured immunochemically in autopsy samples of the brain (n = 6) and in serum samples from (a) patients with mild traumatic brain injury (MTBI; n = 130) and (b) depressed patients undergoing bilateral electroconvulsive therapy (ECT; n = 14). The protein markers S100B and NSE were measured for comparison. Reference values of B-FABP and H-FABP were established in healthy individuals (n = 92). Results: The frontal, temporal, and occipital lobes, the striatum, the pons, and the cerebellum had different tissue concentrations of B-FABP and of H-FABP. B-FABP ranged from 0.8 mug/g wet weight in striatum tissue to 3.1 mug/g in frontal lobe. H-FABP was markedly higher, ranging from 16.2 mug/g wet weight in cerebellum tissue to 39.5 mug/g in pons. No B-FABP was detected in serum from healthy donors. H-FABP serum reference value was 6 mug/L. In the MTBI study, serum B-FABP was increased in 68% and H-FABP in 70% of patients compared with S100B (increased in 45%) and NSE (increased in 51% of patients). In ECT, serum B-FABP was increased in 6% of all samples (2 of 14 patients), whereas H-FABP was above its upper reference limit (6 mug/L) in 17% of all samples (8 of 14 patients), and S100B was above its upper reference limit (0.3 mug/L) in 0.4% of all samples. Conclusions: B-FABP and H-FABP patterns differ among brain tissues, with the highest concentrations in the frontal lobe and pons, respectively. However, in each part of the brain, the H-FABP concentration

Published
2004

25. Uncoupling protein 3 as a mitochondrial fatty acid anion exporter

Author

Schrauwen, P., Schrauwen, P., Hoeks, J., Schaart, G., Kornips, C.F.P., Binas, B., van der Vusse, G.J., van Bilsen, M., Luiken, J.J.F.P., Coort, S.L.M., Glatz, J.F., Saris, W.H.M., Hesselink, M.K.C., Schrauwen, P., Schrauwen, P., Hoeks, J., Schaart, G., Kornips, C.F.P., Binas, B., van der Vusse, G.J., van Bilsen, M., Luiken, J.J.F.P., Coort, S.L.M., Glatz, J.F., Saris, W.H.M., and Hesselink, M.K.C.

Abstract

Uncoupling protein 3 as a mitochondrial fatty acid anion exporter. Schrauwen P, Hoeks J, Schaart G, Kornips E, Binas B, Van De Vusse GJ, Van Bilsen M, Luiken JJ, Coort SL, Glatz JF, Saris WH, Hesselink MK. Department of Human Biology, Nutrition and Toxicology Research Institute Maastricht , Maastricht University, The Netherlands. p.schrauwen@hb.unimaas.nl In contrast to UCP1, the primary function of UCP3 is not the dissipation of energy. Rather, several lines of evidence suggest that UCP3 is related to cellular long-chain fatty acid homeostasis. If long-chain fatty acids enter the mitochondrial matrix in their non-esterified form, they cannot be metabolized and may exert deleterious effects. To test the feasibility that UCP3 exports fatty acid anions, we systematically interfered at distinct steps in the fatty acid metabolism pathway, thereby creating conditions in which the entry of (non-esterified) fatty acids into the mitochondrial matrix is enhanced. First, reducing the cellular fatty acid binding capacity, known to increase cytosolic concentrations of non-esterified fatty acids, up-regulated UCP3 5.3-fold. Second, inhibition of mitochondrial entry of esterified long-chain fatty acids up-regulated UCP3 by 1.9-fold. Third, high-fat diets, to increase mitochondrial supply of non-esterified long-chain fatty acids exceeding oxidative capacity, up-regulated UCP3 twofold. However, feeding a similar amount of medium-chain fatty acids, which can be oxidized inside the mitochondrial matrix and therefore do not need to be exported from the matrix, did not affect UCP3 protein levels. These data are compatible with a physiological function of UCP3 in facilitating outward transport of long-chain fatty acid anions, which cannot be oxidized, from the mitochondrial matrix

Published
2003

26. Lifestyle changes and lipid metabolism gene expression and protein content in skeletal muscle of subjects with impaired glucose tolerance

Author

Mensink, M.R., Mensink, M.R., Blaak, E.E., Vidal, H., de Bruin, T.W.A., Glatz, J.F., Saris, W.H.M., Mensink, M.R., Mensink, M.R., Blaak, E.E., Vidal, H., de Bruin, T.W.A., Glatz, J.F., and Saris, W.H.M.

Abstract

Lifestyle changes and lipid metabolism gene expression and protein content in skeletal muscle of subjects with impaired glucose tolerance. Mensink M, Blaak EE, Vidal H, De Bruin TW, Glatz JF, Saris WH. Nutrition and Toxicology Research Institute Maastricht, Maastricht University, 6200 MD Maastricht, The Netherlands. m.mensink@hb.unimaas.nl AIMS/HYPOTHESIS. Skeletal muscle of pre-diabetic patients is characterised by a diminished capacity to handle fatty acids. A diminished content of several enzymes involved in fatty-acid transport and oxidation have been suggested to underlie these defects. The aim of this study was to investigate whether the combination of dietary advice, increased physical activity and weight loss improves lipid metabolic gene and protein expression in skeletal muscle of subjects with impaired glucose tolerance. METHODS. Before and after 1 year of a lifestyle-intervention programme, expression of several genes and proteins involved in lipid metabolism were measured in vastus lateralis muscle biopsies from subjects in the intervention ( n=7) and control group ( n=6). RESULTS. After 1 year the intervention group had an improved glycaemic control and reduced body fat compared to the control group. Significant differences were observed for acetyl CoA-carboxylase 2 and uncoupling protein 2 expression (ACC2: -16.8+/-12.4% vs +51.5+/-32.3% for the intervention and control group respectively; p<0.05) (UCP2: -26.9+/-10.3% vs +10.5+/-6.2% for the intervention and control group respectively; p<0.05). Change in 3-hydroxyacyl-CoA dehydrogenase protein content tended to be different between groups (+3.2+/-1.1 vs -0.9+/-1.9 U/mg.ww for the intervention and control group, p=0.07). CONCLUSIONS/INTERPRETATION. Lifestyle changes leading to an improved glycaemic control and reduced adiposity, resulted in a down-regulation of ACC-2 and UCP2 expression and in an increase in HAD protein content, reflecting a better capacity to utilise f

Published
2003

28. Increase in skeletal muscle fatty acid binding protein (FABPC) content is directly related to weight loss and to changes in fat oxidation following a very low calorie diet.

Author

Blaak, E.E., Blaak, E.E., Glatz, J.F., Saris, W.H.M., Blaak, E.E., Blaak, E.E., Glatz, J.F., and Saris, W.H.M.

Abstract

Diabetologia 2001 Nov;44(11):2013-7 Related Articles, Books, LinkOut Increase in skeletal muscle fatty acid binding protein (FABPC) content is directly related to weight loss and to changes in fat oxidation following a very low calorie diet. Blaak EE, Glatz JF, Saris WH. Department of Human Biology, Nutrition Research Centre, Maastricht University, Maastricht, The Netherlands. E.Blaak@HB.Unimaas.nl AIMS/HYPOTHESIS: There is increasing evidence that intracellular fatty acid binding proteins (FABPc's; 15 kD) function as vehicles of cytosolic fatty acid transport. We studied skeletal muscle cytosolic FABPc, and enzymes reflecting beta-oxidation and oxidative capacity (3-hydroxyacyl-CoA dehydrogenase, HAD, and citrate synthase, CS) in relation to weight loss and changes in substrate utilisation in a group of 35 obese women and obese men with Type II (non-insulin-dependent) diabetes mellitus (women = 27, men = 8). METHODS: Muscle biopsies (vastus lateralis), and measurements of body composition, resting energy expenditure and respiratory exchange ratio were taken before and after dietary intervention (by means of a very low calorie diet). RESULTS: Muscle FABPc tended to increase after diet (178 +/- 13 vs 204 +/- 12 mg x gww(-1), p = 0.06), whereas there were no changes in CS (10.5 +/- 0.7 vs 11.1 +/- 0.6 U x gww(-1)) and HAD (11.2 +/- 0.7 vs 11.7 +/- 0.6 U x gww(-1)). There was a positive relation between the increase in FABPc as result of diet and the amount of weight lost (p < 0.01; adjusted R2, 15.4 %), even when adjusted for mean body weight, and changes in CS and in HAD by partial regression analysis. Interestingly, the increase in FABPc was positively related to increases in resting fat oxidation (adjusted R2, 24 %), even when adjusted for mean resting fat oxidation, and changes in CS and in HAD. CONCLUSION/INTERPRETATION: In conclusion, the ability to increase muscle FABPc could be directly related to weight loss and t

Published
2001

29. Peri-operative myocardial tissue injury and the release of inflammatory mediators in coronary artery bypass graft patients

Author

Fransen, E.J., Fransen, E.J., Maessen, J.G., Hermens, W.T., Glatz, J.F., Buurman, W.A., Fransen, E.J., Fransen, E.J., Maessen, J.G., Hermens, W.T., Glatz, J.F., and Buurman, W.A.

Abstract

Objective: This study was conducted to evaluate to what extent the ischemia-reperfusion injury resulting from the cardiopulmonary bypass (CPB) and aortic cross-clamping procedures during coronary artery bypass grafting (CABG) contributes to the systemic inflammatory response generally found in these patients. Methods: Serum levels of enzymes (CK and CK-MB) and non-enzymatic proteins (FABP and myoglobin) as markers of myocardial tissue injury, bactericidal permeability increasing protein (BPI) as an indicator of neutrophil activation, interleukin-6 (IL-6) as inducer of the acute phase response and lipopolysaccharide binding protein (LBP) as parameter of the acute phase response were measured in 15 low-risk CABG patients with cardiopulmonary bypass (CPB), and 17 low-risk CABG patients without CPB. Results: Already 0.5 h after reperfusion significantly increased plasma levels of all markers of myocardial tissue injury were noted in patients having surgery with CPB, but not in non-CPB patients. No significant differences were found between both groups for BPI and IL-6 levels in the early reperfusion period. BPI and IL-6 levels were higher in the non-CPB group on the first post-operative day (P

Published
2000

30. The effect of weight reduction on skeletal muscle UCP2 and UCP3 mRNA expression and UCP3 protein content in Type II diabetic subjects.

Author

Schrauwen, P., Schrauwen, P., Schaart, G., Saris, W.H.M., Slieker, L.J., Glatz, J.F., Vidal, H., Blaak, E.E., Schrauwen, P., Schrauwen, P., Schaart, G., Saris, W.H.M., Slieker, L.J., Glatz, J.F., Vidal, H., and Blaak, E.E.

Abstract

AIMS/HYPOTHESIS: The aim of this study was to examine the effect of weight loss on UCP2/UCP3 mRNA expression and UCP3 protein content in subjects with Type II (non-insulin-dependent) diabetes mellitus. METHODS: We studied seven Type II diabetic subjects who followed a 10-week very low calorie diet. Expression of skeletal muscle UCP2 and UCP3 mRNA was measured using RT-competitive PCR and UCP3 protein content by western blotting, before and after the diet. Total and plasma fatty acid oxidation was measured using infusion of 13C labelled palmitate. RESULTS: Body weight decreased from 105.5 +/- 8.2 kg to 91.6 +/- 7.2 kg (p < 0.001), after 10 weeks of diet intervention. Expression of UCP2 and UCP3 mRNA were significantly reduced after 10 weeks of diet (p < 0.05) but UCP3 protein contents were not significantly altered. Notably, the change in UCP3L mRNA expression and UCP3 protein content after the very low calorie diet were negatively associated with changes in body weight (r = -0.97, p = 0.006 and r = -0.83, p = 0.043, respectively) and BMI (r = -0.99, p = 0.0007 and r = -0.9, p = 0.016, respectively). Furthermore, changes in UCP3L mRNA expression and UCP3 protein content induced by the diet were positively correlated with changes in cytosolic fatty acid-binding protein content (r = 0.93, p = 0.023 and r = 0.84, p = 0.039, respectively). No correlation between diet-induced changes in UCP3 protein and resting energy expenditure or plasma non-esterified fatty acid concentrations were found. CONCLUSION/INTERPRETATION: The negative correlation between the change in UCP3 protein content after weight loss and the change in BMI, suggests that the decrease in UCP3 during weight loss could prevent further weight loss. The finding that the change in UCP3 protein content correlates with the change in skeletal muscle fatty acid-binding protein content, suggests a role for UCPs in the handling of lipids as a fuel.

Published
2000

31. Combined hyperlipidemia is associated with increased exercise-induced muscle protein release which is improved by triglyceride-lowering intervention.

Author

Smit, J.W., Smit, J.W., de Bruin, T.W.A., Eekhoff, E.M., Glatz, J.F., Erkelens, D.W., Smit, J.W., Smit, J.W., de Bruin, T.W.A., Eekhoff, E.M., Glatz, J.F., and Erkelens, D.W.

Abstract

Department of Internal Medicine, University Hospital, Utrecht, The Netherlands. Although myopathy is considered an adverse effect of treatment with 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors and fibrates in combined hyperlipidemia, the present study was performed to investigate whether combined hyperlipidemia itself is associated with skeletal muscle pathology and whether lipid-lowering intervention has beneficial effects. To investigate whether combined hyperlipidemia is associated with skeletal muscle pathology, 10 male patients and 15 normolipidemic controls underwent a 45-minute standardized bicycle ergometer test at a load of 2 W/kg lean body mass (parallel study). One- and 8-hour postexercise increments in the plasma level of the muscle proteins creatine kinase (CK), myoglobin (Mb), and fatty acid-binding protein (FABP) were assessed as parameters for (subclinical) skeletal muscle pathology. The 8-hour postexercise increments in CK and Mb and 1-hour postexercise increment in Mb were significantly higher in patients than in controls, thus indicating increased exercise-induced muscle membrane permeability in combined hyperlipidemia. To investigate the effects of lipid-lowering intervention on skeletal muscle in combined hyperlipidemia, 21 subjects with combined hyperlipidemia were randomized double-blindly to receive 6 weeks of treatment with fluvastatin 40 mg/d, gemfibrozil 600 mg twice daily, or combination therapy. All subjects underwent an ergometer test before and after treatment. Gemfibrozil treatment alone reduced the CK increments 8 hours postexercise by 47% and the FABP increments 1 and 8 hours postexercise by 83% and 101%, respectively (all P < .05). Combined treatment reduced Mb increments 1 hour postexercise by 54% and FABP increments 8 hours postexercise by 44% (all P < .05). A highly significant correlation existed between therapy-induced changes in plasma triglycerides and changes in postexercise increments

Published
1999

Catalog

Books, media, physical & digital resources
See catalog results