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1. Unfolding of monomeric lipoprotein lipase by ANGPTL4: Insight into the regulation of plasma triglyceride metabolism

Author

Kristensen, Kristian K, Leth-Espensen, Katrine Zinck, Mertens, Haydyn DT, Birrane, Gabriel, Meiyappan, Muthuraman, Olivecrona, Gunilla, Jørgensen, Thomas JD, Young, Stephen G, and Ploug, Michael

Subjects
Biochemistry and Cell Biology, Biological Sciences, Amino Acid Motifs, Angiopoietin-Like Protein 4, Animals, Antibodies, Monoclonal, Dimerization, Humans, Hypertriglyceridemia, Lipoprotein Lipase, Protein Unfolding, Receptors, Lipoprotein, Triglycerides, HDX-MS, intravascular lipolysis, lipoprotein lipase, GPIHBP1, surface plasmon resonance
Abstract

The binding of lipoprotein lipase (LPL) to GPIHBP1 focuses the intravascular hydrolysis of triglyceride-rich lipoproteins on the surface of capillary endothelial cells. This process provides essential lipid nutrients for vital tissues (e.g., heart, skeletal muscle, and adipose tissue). Deficiencies in either LPL or GPIHBP1 impair triglyceride hydrolysis, resulting in severe hypertriglyceridemia. The activity of LPL in tissues is regulated by angiopoietin-like proteins 3, 4, and 8 (ANGPTL). Dogma has held that these ANGPTLs inactivate LPL by converting LPL homodimers into monomers, rendering them highly susceptible to spontaneous unfolding and loss of enzymatic activity. Here, we show that binding of an LPL-specific monoclonal antibody (5D2) to the tryptophan-rich lipid-binding loop in the carboxyl terminus of LPL prevents homodimer formation and forces LPL into a monomeric state. Of note, 5D2-bound LPL monomers are as stable as LPL homodimers (i.e., they are not more prone to unfolding), but they remain highly susceptible to ANGPTL4-catalyzed unfolding and inactivation. Binding of GPIHBP1 to LPL alone or to 5D2-bound LPL counteracts ANGPTL4-mediated unfolding of LPL. In conclusion, ANGPTL4-mediated inactivation of LPL, accomplished by catalyzing the unfolding of LPL, does not require the conversion of LPL homodimers into monomers. Thus, our findings necessitate changes to long-standing dogma on mechanisms for LPL inactivation by ANGPTL proteins. At the same time, our findings align well with insights into LPL function from the recent crystal structure of the LPL•GPIHBP1 complex.

Published
2020

3. A disordered acidic domain in GPIHBP1 harboring a sulfated tyrosine regulates lipoprotein lipase

Author

Kristensen, Kristian K, Midtgaard, Søren Roi, Mysling, Simon, Kovrov, Oleg, Hansen, Lars Bo, Skar-Gislinge, Nicholas, Beigneux, Anne P, Kragelund, Birthe B, Olivecrona, Gunilla, Young, Stephen G, Jørgensen, Thomas JD, Fong, Loren G, and Ploug, Michael

Subjects
Aetiology, 2.1 Biological and endogenous factors, Angiopoietin-Like Protein 4, Animals, Endothelial Cells, Humans, Hyperlipoproteinemia Type I, Lipoprotein Lipase, Mice, Protein Binding, Protein Domains, Receptors, Lipoprotein, Tyrosine, hypertriglyceridemia, electrostatic steering, intrinsically disordered region, intravascular lipolysis, autoimmune disease
Abstract

The intravascular processing of triglyceride-rich lipoproteins depends on lipoprotein lipase (LPL) and GPIHBP1, a membrane protein of endothelial cells that binds LPL within the subendothelial spaces and shuttles it to the capillary lumen. In the absence of GPIHBP1, LPL remains mislocalized within the subendothelial spaces, causing severe hypertriglyceridemia (chylomicronemia). The N-terminal domain of GPIHBP1, an intrinsically disordered region (IDR) rich in acidic residues, is important for stabilizing LPL's catalytic domain against spontaneous and ANGPTL4-catalyzed unfolding. Here, we define several important properties of GPIHBP1's IDR. First, a conserved tyrosine in the middle of the IDR is posttranslationally modified by O-sulfation; this modification increases both the affinity of GPIHBP1-LPL interactions and the ability of GPIHBP1 to protect LPL against ANGPTL4-catalyzed unfolding. Second, the acidic IDR of GPIHBP1 increases the probability of a GPIHBP1-LPL encounter via electrostatic steering, increasing the association rate constant (kon) for LPL binding by >250-fold. Third, we show that LPL accumulates near capillary endothelial cells even in the absence of GPIHBP1. In wild-type mice, we expect that the accumulation of LPL in close proximity to capillaries would increase interactions with GPIHBP1. Fourth, we found that GPIHBP1's IDR is not a key factor in the pathogenicity of chylomicronemia in patients with the GPIHBP1 autoimmune syndrome. Finally, based on biophysical studies, we propose that the negatively charged IDR of GPIHBP1 traverses a vast space, facilitating capture of LPL by capillary endothelial cells and simultaneously contributing to GPIHBP1's ability to preserve LPL structure and activity.

Published
2018

4. The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding.

Author

Mysling, Simon, Kristensen, Kristian Kølby, Larsson, Mikael, Kovrov, Oleg, Bensadouen, André, Jørgensen, Thomas Jd, Olivecrona, Gunilla, Young, Stephen G, and Ploug, Michael

Subjects
Lipoprotein Lipase, Receptors, Lipoprotein, Protein Interaction Mapping, Protein Folding, Mutant Proteins, Mass Spectrometry, Protein Domains, Angiopoietin-like 4 Protein, ANGTPL3, ANGTPL4, GPIHBP1, HDX-MS, biophysics, familial chylomicronemia, human, human biology, medicine, protein unfolding, structural biology, Receptors, Lipoprotein, Biochemistry and Cell Biology
Abstract

Lipoprotein lipase (LPL) undergoes spontaneous inactivation via global unfolding and this unfolding is prevented by GPIHBP1 (Mysling et al., 2016). We now show: (1) that ANGPTL4 inactivates LPL by catalyzing the unfolding of its hydrolase domain; (2) that binding to GPIHBP1 renders LPL largely refractory to this inhibition; and (3) that both the LU domain and the intrinsically disordered acidic domain of GPIHBP1 are required for this protective effect. Genetic studies have found that a common polymorphic variant in ANGPTL4 results in lower plasma triglyceride levels. We now report: (1) that this ANGPTL4 variant is less efficient in catalyzing the unfolding of LPL; and (2) that its Glu-to-Lys substitution destabilizes its N-terminal α-helix. Our work elucidates the molecular basis for regulation of LPL activity by ANGPTL4, highlights the physiological relevance of the inherent instability of LPL, and sheds light on the molecular defects in a clinically relevant variant of ANGPTL4.

Published
2016

7. Localization of lipoprotein lipase and GPIHBP1 in mouse pancreas: effects of diet and leptin deficiency

Author

Nyrén, Rakel, Chang, Chuchun L, Lindström, Per, Barmina, Anastasia, Vorrsjö, Evelina, Ali, Yusuf, Juntti-Berggren, Lisa, Bensadoun, André, Young, Stephen G, Olivecrona, Thomas, and Olivecrona, Gunilla

Abstract

Abstract Background Lipoprotein lipase (LPL) hydrolyzes triglycerides in plasma lipoproteins and enables uptake of lipolysis products for energy production or storage in tissues. Our aim was to study the localization of LPL and its endothelial anchoring protein glycosylphosphatidylinositol-anchored high density lipoprotein-binding protein 1 (GPIHBP1) in mouse pancreas, and effects of diet and leptin deficiency on their expression patterns. For this, immunofluorescence microscopy was used on pancreatic tissue from C57BL/6 mouse embryos (E18), adult mice on normal or high-fat diet, and adult ob/ob-mice treated or not with leptin. The distribution of LPL and GPIHBP1 was compared to insulin, glucagon and CD31. Heparin injections were used to discriminate between intracellular and extracellular LPL. Results In the exocrine pancreas LPL was found in capillaries, and was mostly co-localized with GPIHBP1. LPL was releasable by heparin, indicating localization on cell surfaces. Within the islets, most of the LPL was associated with beta cells and could not be released by heparin, indicating that the enzyme remained mostly within cells. Staining for LPL was found also in the glucagon-producing alpha cells, both in embryos (E18) and in adult mice. Only small amounts of LPL were found together with GPIHBP1 within the capillaries of islets. Neither a high fat diet nor fasting/re-feeding markedly altered the distribution pattern of LPL or GPIHBP1 in mouse pancreas. Islets from ob/ob mice appeared completely deficient of LPL in the beta cells, while LPL-staining was normal in alpha cells and in the exocrine pancreas. Leptin treatment of ob/ob mice for 12 days reversed this pattern, so that most of the islets expressed LPL in beta cells. Conclusions We conclude that both LPL and GPIHBP1 are present in mouse pancreas, and that LPL expression in beta cells is dependent on leptin.

Published
2012

8. Visualizing increased uptake of [18F]FDG and [18F]FTHA in kidneys from obese high-fat diet fed C57BL/6J mice using PET/CT ex vivo

Author

Nyrén, Rakel, Scherman, Henrik, Axelsson, Jan, Chang, Chuchun L., Olivecrona, Gunilla, Ericsson, Madelene, Nyrén, Rakel, Scherman, Henrik, Axelsson, Jan, Chang, Chuchun L., Olivecrona, Gunilla, and Ericsson, Madelene

Abstract

It is known that high-fat diet (HFD) and/or diabetes may influence substrate preferences and energy demands in the heart preceding diabetic cardiomyopathy. They may also induce structural glomerular changes causing diabetic nephropathy. PET/CT has been utilized to examine uptake of energy substrates, and to study metabolic changes or shifts before onset of metabolic disorders. However, conventional PET/CT scanning of organs with relatively low uptake, such as the kidney, in small animals in vivo may render technical difficulties. To address this issue, we developed a PET/CT ex vivo protocol with radiolabeled glucose and fatty acid analouges, [18F]FDG and [18F]FTHA,to study substrate uptake in mouse kidneys. We also aimed to detect a possible energy substrate shift before onset of diabetic nephropathy. The ex vivo protocol reduced interfering background as well as interindividual variances. We found increased uptake of [18F]FDG and [18F]FTHA in kidneys after HFD, compared to kidneys from young mice on standard chow. Levels of kidney triglycerides also increased on HFD. Lipoprotein lipase (LPL) activity, the enzyme responsible for release of fatty acids from circulating lipoproteins, is normally increased in postprandial mice kidneys. After long-term HFD, we found that LPL activity was suppressed, and could therefore not explain the increased levels of stored triglycerides. Suppressed LPL activity was associated with increased expression of angiopoietin-like protein4, an inhibitor of LPL. HFD did not alter the transcriptional control of some common glucose and fatty acid transporters that may mediate uptake of [18F]FDG and [18F]FTHA. Performing PET/CT ex vivo reduced interfering background and interindividual variances. Obesity and insulin resistance induced by HFD increased the uptake of [18F]FDG and [18F]FTHA and triglyceride accumulation in mouse kidneys. Increased levels of [18F]FDG and [18F]FTHA in obese insulin resistant mice could be used clinically as an indic

Published
2023
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9. Role of lipoprotein lipase activity measurement in the diagnosis of familial chylomicronemia syndrome : diagnosis of the Familial Chylomicronemia Syndrome

Author

Rioja, José, Ariza, María José, Benítez-Toledo, María José, Espíldora-Hernández, Javier, Coca-Prieto, Inmaculada, Arrobas-Velilla, Teresa, Camacho, Ana, Olivecrona, Gunilla, Sánchez-Chaparro, Miguel Ángel, Valdivielso, Pedro, Rioja, José, Ariza, María José, Benítez-Toledo, María José, Espíldora-Hernández, Javier, Coca-Prieto, Inmaculada, Arrobas-Velilla, Teresa, Camacho, Ana, Olivecrona, Gunilla, Sánchez-Chaparro, Miguel Ángel, and Valdivielso, Pedro

Abstract

Background: Activity assays for lipoprotein lipase (LPL) are not standardised for use in clinical settings. Objective: This study sought to define and validate a cut-off points based on a ROC curve for the diagnosis of patients with familial chylomicronemia syndrome (FCS). We also evaluated the role of LPL activity in a comprehensive FCS diagnostic workflow. Methods: A derivation cohort (including an FCS group (n = 9), a multifactorial chylomicronemia syndrome (MCS) group (n = 11)), and an external validation cohort (including an FCS group (n = 5), a MCS group (n = 23) and a normo-triglyceridemic (NTG) group (n = 14)), were studied. FCS patients were previously diagnosed by the presence of biallelic pathogenic genetic variants in the LPL and GPIHBP1 genes. LPL activity was also measured. Clinical and anthropometric data were recorded, and serum lipids and lipoproteins were measured. Sensitivity, specificity and cut-offs for LPL activity were obtained from a ROC curve and externally validated. Results: All post-heparin plasma LPL activity in the FCS patients were below 25.1 mU/mL, that was cut-off with best performance. There was no overlap in the LPL activity distributions between the FCS and MCS groups, conversely to the FCS and NTG groups. Conclusion: We conclude that, in addition to genetic testing, LPL activity in subjects with severe hypertriglyceridemia is a reliable criterium in the diagnosis of FCS when using a cut-off of 25.1 mU/mL (25% of the mean LPL activity in the validation MCS group). We do not recommend the NTG patient based cut-off values due to low sensitivity.

Published
2023
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16. Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise

Author

Catoire, Milène, Alex, Sheril, Paraskevopulos, Nicolas, Mattijssen, Frits, Gogh, Inkie Evers-van, Schaart, Gert, Jeppesen, Jacob, Kneppers, Anita, Mensink, Marco, Voshol, Peter J., Olivecrona, Gunilla, Tan, Nguan Soon, Hesselink, Matthijs K. C., Berbée, Jimmy F., Rensen, Patrick C. N., Kalkhoven, Eric, Schrauwen, Patrick, and Kersten, Sander

Published
2014

17. SORLA facilitates insulin receptor signaling in adipocytes and exacerbates obesity

Author

Schmidt, Vanessa, Schulz, Nadja, Yan, Xin, Schurmann, Annette, Kempa, Stefan, Kern, Matthias, Bluher, Matthias, Poy, Matthew N., Olivecrona, Gunilla, and Willnow, Thomas E.

Subjects
Obesity -- Genetic aspects -- Physiological aspects -- Analysis, Insulin -- Physiological aspects -- Analysis, Alzheimer's disease -- Genetic aspects -- Risk factors -- Analysis, Health care industry
Abstract

In humans, genetic variation of sortilin-related receptor, L(DLR class) A repeats containing (SORL1), which encodes the intracellular sorting receptor SORLA, is a major genetic risk factor for familial and sporadic forms of Alzheimer's disease. Recent GWAS analysis has also associated SORL1 with obesity in humans and in mouse models, suggesting that this receptor may play a role in regulating metabolism. Here, using mouse models with genetic loss or tissue-specific overexpression of SORLA as well as data from obese human subjects, we observed a gene-dosage effect that links SORLA expression to obesity and glucose tolerance. Overexpression of human SORLA in murine adipose tissue blocked hydrolysis of triacylglycerides and caused excessive adiposity. In contrast, Sorl1 gene inactivation in mice accelerated breakdown of triacylglycerides in adipocytes and protected animals from diet-induced obesity. We then identified the underlying molecular mechanism whereby SORLA promotes insulin-induced suppression of lipolysis in adipocytes. Specifically, we determined that SORLA acts as a sorting factor for the insulin receptor (IR) that redirects internalized receptor molecules from endosomes to the plasma membrane, thereby enhancing IR surface expression and strengthening insulin signal reception in target cells. Our findings provide a molecular mechanism for the association of SORL1 with human obesity and confirm a genetic link between neurodegeneration and metabolism that converges on the receptor SORLA., Introduction Obesity is a global health problem that poses a major risk factor for life-threatening diseases such as cardiovascular disease, cancer, and neurodegeneration. Recent GWAS have identified loci associated with [...]

Published
2016
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19. ANGPTL4 silencing via antisense oligonucleotides reduces plasma triglycerides and glucose in mice without causing lymphadenopathy

Author

Deng, Mingjuan, Kutrolli, Elda, Sadewasser, Anne, Michel, Sven, Joibari, Masoumeh Motamedi, Jaschinski, Frank, Olivecrona, Gunilla, Nilsson, Stefan K., Kersten, Sander, Deng, Mingjuan, Kutrolli, Elda, Sadewasser, Anne, Michel, Sven, Joibari, Masoumeh Motamedi, Jaschinski, Frank, Olivecrona, Gunilla, Nilsson, Stefan K., and Kersten, Sander

Abstract

Angiopoietin-like 4 (ANGPTL4) is an important regulator of plasma triglyceride (TG) levels and an attractive pharmacological target for lowering plasma lipids and reducing cardiovascular risk. Here, we aimed to study the efficacy and safety of silencing ANGPTL4 in the livers of mice using hepatocyte-targeting GalNAc-conjugated antisense oligonucleotides (ASOs). Compared with injections with negative control ASO, four injections of two different doses of ANGPTL4 ASO over 2 weeks markedly downregulated ANGPTL4 levels in liver and adipose tissue, which was associated with significantly higher adipose LPL activity and lower plasma TGs in fed and fasted mice, as well as lower plasma glucose levels in fed mice. In separate experiments, injection of two different doses of ANGPTL4 ASO over 20 weeks of high-fat feeding reduced hepatic and adipose ANGPTL4 levels but did not trigger mesenteric lymphadenopathy, an acute phase response, chylous ascites, or any other pathological phenotypes. Compared with mice injected with negative control ASO, mice injected with ANGPTL4 ASO showed reduced food intake, reduced weight gain, and improved glucose tolerance. In addition, they exhibited lower plasma TGs, total cholesterol, LDL-C, glucose, serum amyloid A, and liver TG levels. By contrast, no significant difference in plasma alanine aminotransferase activity was observed. Overall, these data suggest that ASOs targeting ANGPTL4 effectively reduce plasma TG levels in mice without raising major safety concerns.

Published
2022
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20. Lipoprotein size is a main determinant for the rate of hydrolysis by exogenous LPL in human plasma

Author

Kovrov, Oleg, Landfors, Fredrik, Saar-Kovrov, Valeria, Näslund, Ulf, Olivecrona, Gunilla, Kovrov, Oleg, Landfors, Fredrik, Saar-Kovrov, Valeria, Näslund, Ulf, and Olivecrona, Gunilla

Abstract

LPL is a key player in plasma triglyceride metabolism. Consequently, LPL is regulated by several proteins during synthesis, folding, secretion, and transport to its site of action at the luminal side of capillaries, as well as during the catalytic reaction. Some proteins are well known, whereas others have been identified but are still not fully understood. We set out to study the effects of the natural variations in the plasma levels of all known LPL regulators on the activity of purified LPL added to samples of fasted plasma taken from 117 individuals. The enzymatic activity was measured at 25°C using isothermal titration calorimetry. This method allows quantification of the ability of an added fixed amount of exogenous LPL to hydrolyze triglyceride-rich lipoproteins in plasma samples by measuring the heat produced. Our results indicate that, under the conditions used, the normal variation in the endogenous levels of apolipoprotein C1, C2, and C3 or the levels of angiopoietinlike proteins 3, 4, and 8 in the fasted plasma samples had no significant effect on the recorded activity of the added LPL. Instead, the key determinant for the LPL activity was a lipid signature strongly correlated to the average size of the VLDL particles. The signature involved not only several lipoprotein and plasma lipid parameters but also apolipoprotein A5 levels. While the measurements cannot fully represent the action of LPL when attached to the capillary wall, our study provides knowledge on the interindividual variation of LPL lipolysis rates in human plasma.

Published
2022
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27. Visualizing increased uptake of [18F]FDG and [18F]FTHA in kidneys from obese high-fat diet fed C57BL/6J mice using PET/CT ex vivo.

Author

Nyrén, Rakel, Scherman, Henrik, Axelsson, Jan, Chang, Chuchun L., Olivecrona, Gunilla, and Ericsson, Madelene

Subjects
HIGH-fat diet, LABORATORY mice, DIABETIC nephropathies, KIDNEYS, LIPOPROTEIN lipase, DIABETIC cardiomyopathy, POLYETHYLENE terephthalate, OBESITY
Abstract

It is known that high-fat diet (HFD) and/or diabetes may influence substrate preferences and energy demands in the heart preceding diabetic cardiomyopathy. They may also induce structural glomerular changes causing diabetic nephropathy. PET/CT has been utilized to examine uptake of energy substrates, and to study metabolic changes or shifts before onset of metabolic disorders. However, conventional PET/CT scanning of organs with relatively low uptake, such as the kidney, in small animals in vivo may render technical difficulties. To address this issue, we developed a PET/CT ex vivo protocol with radiolabeled glucose and fatty acid analouges, [18F]FDG and [18F]FTHA,to study substrate uptake in mouse kidneys. We also aimed to detect a possible energy substrate shift before onset of diabetic nephropathy. The ex vivo protocol reduced interfering background as well as interindividual variances. We found increased uptake of [18F]FDG and [18F]FTHA in kidneys after HFD, compared to kidneys from young mice on standard chow. Levels of kidney triglycerides also increased on HFD. Lipoprotein lipase (LPL) activity, the enzyme responsible for release of fatty acids from circulating lipoproteins, is normally increased in postprandial mice kidneys. After long-term HFD, we found that LPL activity was suppressed, and could therefore not explain the increased levels of stored triglycerides. Suppressed LPL activity was associated with increased expression of angiopoietin-like protein4, an inhibitor of LPL. HFD did not alter the transcriptional control of some common glucose and fatty acid transporters that may mediate uptake of [18F]FDG and [18F]FTHA. Performing PET/CT ex vivo reduced interfering background and interindividual variances. Obesity and insulin resistance induced by HFD increased the uptake of [18F]FDG and [18F]FTHA and triglyceride accumulation in mouse kidneys. Increased levels of [18F]FDG and [18F]FTHA in obese insulin resistant mice could be used clinically as an indicator of poor metabolic control, and a complementary test for incipient diabetic nephropathy. [ABSTRACT FROM AUTHOR]

Published
2023
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30. What Factors Regulate the Action of Lipoprotein Lipase?

Author

Olivecrona, Thomas, Bengtsson-Olivecrona, Gunilla, Hultin, Magnus, Peterson, Jonas, Vilaró, Senén, Deckelbaum, Richard J., Carpentier, Yvon A., Patsch, Josef, Malmendier, Claude L., editor, Alaupovic, P., editor, and Brewer, H. Bryan, Jr., editor

Published
1991
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32. Depletion of FOXP[3.sup.+] regulatory T cells promotes hypercholesterolemia and atherosclerosis

Author

Klingenberg, Roland, Gerdes, Norbert, Badeau, Robert M., Gistera, Anton, Strodthoff, Daniela, Ketelhuth, Daniel F.J., Lundberg, Anna M., Rudling, Mats, Nilsson, Stefan K., Olivecrona, Gunilla, Zoller, Stefan, Lohmann, Christine, Luscher, Thomas F., Jauhiainen, Matti, Sparwasser, Tim, and Hansson, Goran K.

Subjects
T cells -- Physiological aspects -- Genetic aspects -- Research, Hypercholesterolemia -- Development and progression -- Genetic aspects -- Care and treatment -- Research, Atherosclerosis -- Development and progression -- Genetic aspects -- Care and treatment -- Research, Health care industry
Abstract

Atherosclerosis is a chronic inflammatory disease promoted by hyperlipidemia. Several studies support FOXP3-positive regulatory T cells (Tregs) as inhibitors of atherosclerosis; however, the mechanism underlying this protection remains elusive. To [...]

Published
2013
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33. The VLDL receptor promotes lipotoxicity and increases mortality in mice following an acute myocardial infarction

Author

Perman, Jeanna C., Bostrom, Pontus, Lindbom, Malin, Lidberg, Ulf, StAhlman, Marcus, Hagg, Daniel, Lindskog, Henrik, Tang, Margareta Scharin, Omerovic, Elmir, Hulten, Lillemor Mattsson, Jeppsson, Anders, Petursson, Petur, Herlitz, Johan, Olivecrona, Gunilla, Strickland, Dley K., Ekroos, Kim, Olofsson, Sven-Olof, and Boren, Jan

Subjects
Heart attack -- Health aspects -- Research, Mortality -- Research -- United States, Cell receptors -- Physiological aspects -- Research, Low density lipoproteins -- Physiological aspects -- Research, Health care industry
Abstract

Impaired cardiac function is associated with myocardial triglyceride accumulation, but it is not clear how the lipids accumulate or whether this accumulation is detrimental. Here we show that hypoxia/ischemia-induced accumulation [...]

Published
2011
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35. Tissue-specific postprandial clearance is the major determinant of PPAR[gamma]-induced triglyceride lowering in the rat

Author

Laplante, Mathieu, Festuccia, William T., Soucy, Genevieve, Blanchard, Pierre-Gilles, Renaud, Alexandra, Berger, Joel P., Olivecrona, Gunilla, and Deshaies, Yves

Subjects
Adipose tissues -- Physiological aspects, Adipose tissues -- Research, Cell receptors -- Physiological aspects, Cell receptors -- Research, Biological sciences
Abstract

Peroxisome proliferator-activated receptor-[gamma] (PPAR[gamma]) agonism potently reduces circulating triglycerides (TG) in rodents and more modestly so in humans. This study aimed to quantify in vivo the relative contribution of hepatic VLDL-TG secretion and tissue-specific TG clearance to such action. Rats were fed an obesogenic diet, treated with the PPAR[gamma] full agonist COOH (30 mg x [kg.sup.-1] x [day.sup.-1] for 3 wk, and studied in both the fasted and refed (fat-free) states. Hepatic VLDL-TG secretion rate was not affected by chronic COOH in the fasted state and was only modestly decreased (-30%) in refed rats. In contrast, postprandial VLDL-TG clearance was increased 2.6-fold by COOH, which concomitantly stimulated adipose tissue TG-derived lipid uptake and one of its major determinants, lipoprotein lipase (LPL) activity, in a highly depot-specific manner. TG-derived lipid uptake and LPL were indeed strongly increased in subcutaneous inguinal white adipose tissue and in brown adipose tissue, independently of the nutritional state, whereas of the three visceral fat depots examined (epididymal, retroperitoneal, mesenteric) only the latter responded consistently to COOH. Robust correlations (0.5 < r < 0.9) were observed between TG-derived lipid uptake and LPL in adipose tissues. The agonist did not increase LPL in muscle, and its enhancing action on postprandial muscle lipid uptake appeared to be mediated by post-LPL processes involving increased expression of fatty acid binding/transport proteins (aP2, likely in infiltrated adipocytes, FAT/CD36, and FATP-I). The study establishes in a diet-induced obesity model the major contribution of lipid uptake by specific, metabolically safe adipose depots to the postprandial hypotriglyceridemic action of PPAR[gamma] agonism, and suggests a key role for LPL therein. PPAR[gamma] agonist; white adipose tissue; brown adipose tissue; triglyceride secretion; triglyceride clearance

Published
2009

36. 11[beta]-HSD1 inhibition improves triglyceridemia through reduced liver VLDL secretion and partitions lipids toward oxidative tissues

Author

Berthiaume, Magalie, Laplante, Mathieu, Festuccia, William T., Cianflone, Katherine, Turcotte, Lorraine P., Joanisse, Denis R., Olivecrona, Gunilla, Thieringer, Rolf, and Deshaies, Yves

Subjects
Oxidoreductases -- Physiological aspects, Oxidoreductases -- Research, Obesity -- Complications and side effects, Lipid metabolism -- Physiological aspects, Lipid metabolism -- Research, Low density lipoproteins -- Physiological aspects, Biological sciences
Abstract

Tissue-specific alterations in 11[beta]-hydroxysteroid dehydrogenase (HSD) type 1 activity, which amplifies glucocorticoid action, are thought to contribute to some of the metabolic complications of obesity. The present study tested whether hypertriglyceridemia is one such complication by investigating the effects of an ll[beta]-HSD1 inhibitor (compound A, 3 mg x [kg.sup.-1] x [day.sup.-1], 21 days) on triglyceride (TG) metabolism in a rat model of diet-induced obesity. The dose of compound A used did not affect food intake or final body weight. Compound A improved fasting triglyceridemia (-42%) through a robust reduction (-41%) in hepatic TG secretion rate, without change in plasma TG clearance rate. Uptake of TG-derived fatty acids was, however, increased in oxidative tissues, including red gastrocnemius (+47%), heart (+39%), and brown adipose tissue (BAT, +46%) at the expense of the liver, with a concomitant increase in plasma membrane fatty acid-binding protein. Lipid oxidation products were increased in red gastrocnemius (+35%) and heart (+33%), as were levels of uncoupling protein 1 mRNA in BAT (+48%), and carnitine palmitoyltransferase 1 activity tended to be increased in some oxidative tissues. These findings demonstrate that pharmacological inhibition of 11[beta]-HSD1 at a dose that does not affect food intake improves triglyceridemia by reducing hepatic very low density lipoprotein-TG secretion, with a shift in the pattern of TG-derived fatty acid uptake toward oxidative tissues, in which lipid accumulation is prevented by increased lipid oxidation. 11[beta]-hsd1 inhibitor; glucocorticoids; diet-induced obesity; triglycerides; lipid metabolism; lipid partitioning; lipid oxidation.

Published
2007

37. A transcription-dependent mechanism, akin to that in adipose tissue, modulates lipoprotein lipase activity in rat heart

Author

Wu, Gengshu, Zhang, Liyan, Gupta, Jitendra, Olivecrona, Gunilla, and Olivecrona, Thomas

Subjects
Adipose tissues -- Properties, Genetic transcription -- Research, Lipoprotein lipase -- Properties, Heart -- Medical examination, Perfusion (Physiology) -- Research, Biological sciences
Abstract

The enzyme lipoprotein lipase (LPL) releases fatty acids from lipoprotein triglycerides for use in cell metabolism. LPL activity is rapidly modulated in a tissuespecific manner. Recent studies have shown that in rat adipose tissue this occurs by a shift of extracellular LPL toward an inactive form catalyzed by an LPL-controlling protein whose expression changes in response to the nutritional state. To explore whether a similar mechanism operates in other tissues we injected actinomycin D to block transcription of the putative LPL controlling protein(s). When actinomycin was given to fed rats, heparin-releasable LPL activity increased by 160% in heart and by 150% in a skeletal muscle (soleus) in 6 h. Postheparin LPL activity in blood increased by about 200%. To assess the state of extracellular LPL we subjected the spontaneously released LPL in heart perfusates to chromatography on heparin-agarose, which separates the active and inactive forms of the lipase. The amount of lipase protein released remained relatively constant on changes in the nutritional state and/or blockade of transcription, but the distribution between the active and inactive forms changed. Less of the LPL protein was in the active form in perfusates from hearts from fed compared with fasted rats. When glucose was given to fasted rats the proportion of LPL protein in the active form decreased. Actinomycin D increased the proportion that was active, in accord with the hypothesis that the message for a rapidly turning over LPL-controlling protein was being removed. muscle; heart perfusion; postheparin plasma; heparin; actinomycin D

Published
2007

38. Apolipoprotein A-V interaction with members of the low density lipoprotein receptor gene family

Author

Nilsson, Stefan K., Lookene, Aivar, Beckstead, Jennifer A., Gliemann, Jorgen, Ryan, Robert O., and Olivecrona, Gunilla

Subjects
Apolipoproteins -- Research, Low density lipoprotein receptors -- Research, Molecular structure -- Research, Biological sciences, Chemistry
Abstract

The ability of apolipoprotein A-V to interact with two members of the low density lipoprotein receptor family, the low density lipoprotein receptor-related protein and the mosaic type-1 receptor, SorLA is explored to investigate the molecular basis. It is demonstrated that the apolipoprotein A-V influences the plasma lipid homeostasis by enhancing receptor-mediated endocytosis of triacylglycerol-rich lipoproteins.

Published
2007

39. Fasting induces ANGPTL4 and reduces LPL activity in human adipose tissue

Author

Ruppert, Philip M. M., Michielsen, Charlotte C. J. R., Hazebroek, Eric J., Pirayesh, Ali, Olivecrona, Gunilla, Afman, Lydia A., Kersten, Sander, Ruppert, Philip M. M., Michielsen, Charlotte C. J. R., Hazebroek, Eric J., Pirayesh, Ali, Olivecrona, Gunilla, Afman, Lydia A., and Kersten, Sander

Abstract

Objective: Studies in mice have shown that the decrease in lipoprotein lipase (LPL) activity in adipose tissue upon fasting is mediated by induction of the inhibitor ANGPTL4. Here, we aimed to validate this concept in humans by determining the effect of a prolonged fast on ANGPTL4 and LPL gene and protein expression in human subcutaneous adipose tissue. Methods: Twenty-three volunteers ate a standardized meal at 18.00 h and fasted until 20.00 h the next day. Blood was drawn and periumbilical adipose tissue biopsies were collected 2 h and 26 h after the meal. Results: Consistent with previous mouse data, LPL activity in human adipose tissue was significantly decreased by fasting (−60%), concurrent with increased ANGPTL4 mRNA (+90%) and decreased ANGPTL8 mRNA (−94%). ANGPTL4 protein levels in adipose tissue were also significantly increased by fasting (+46%), whereas LPL mRNA and protein levels remained unchanged. In agreement with the adipose tissue data, plasma ANGPTL4 levels increased upon fasting (+100%), whereas plasma ANGPTL8 decreased (−79%). Insulin, levels of which significantly decreased upon fasting, downregulated ANGPTL4 mRNA and protein in primary human adipocytes. By contrast, cortisol, levels of which significantly increased upon fasting, upregulated ANGPTL4 mRNA and protein in primary human adipocytes as did fatty acids. Conclusion: ANGPTL4 levels in human adipose tissue are increased by fasting, likely via increased plasma cortisol and free fatty acids and decreased plasma insulin, resulting in decreased LPL activity.

Published
2020
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40. Maternal Adipose Tissue Expansion, A Missing Link in the Prediction of Birth Weight Centile

Author

Jarvie, Eleanor M., Stewart, Frances M., Ramsay, Jane E., Brown, E. Ann, Meyer, Barbara J., Olivecrona, Gunilla, Griffin, Bruce A., Freeman, Dilys J., Jarvie, Eleanor M., Stewart, Frances M., Ramsay, Jane E., Brown, E. Ann, Meyer, Barbara J., Olivecrona, Gunilla, Griffin, Bruce A., and Freeman, Dilys J.

Abstract

Context: Maternal body mass index (BMI) is associated with increased birth weight but does not explain all the variance in fetal adiposity. Objective: To assess the contribution of maternal body fat distribution to offspring birth weight and adiposity. Design: Longitudinal study throughout gestation and at delivery. Setting: Women recruited at 12 weeks of gestation and followed up at 26 and 36 weeks. Cord blood was collected at delivery. Patients: Pregnant women (n = 45) with BMI 18.0 to 46.3 kg/m(2) and healthy pregnancy outcome. Methods: Maternal first trimester abdominal subcutaneous and visceral adipose tissue thickness (SAT and VAT) was assessed by ultrasound. Main Outcome Measures: Maternal body fat distribution, maternal and cord plasma glucose and lipid concentrations, placental weight, birth weight, and fetal adiposity assessed by cord blood leptin. Results: VAT was the only anthropometric measure independently associated with birth weight centile (r(2) adjusted 15.8%, P=.002). BMI was associated with trimester 2 and trimesters 1 through 3 area under the curve (AUC) glucose and insulin resistance (Homeostatic Model Assessment). SAT alone predicted trimester 2 lipoprotein lipase (LPL) mass (a marker of adipocyte insulin sensitivity) (11.3%, P=.017). VAT was associated with fetal triglyceride (9.3%, P=.047). Placental weight was the only independent predictor of fetal adiposity (48%, P<.001). Maternal trimester 2 and AUC LPL were inversely associated with fetal adiposity (r = -0.69, P=.001 and r = -0.58, P=.006, respectively). Conclusions: Maternal VAT provides additional information to BMI for prediction of birth weight. VAT may be a marker of reduced SAT expansion and increased availability of maternal fatty acids for placental transport.

Published
2020
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41. Unfolding of monomeric lipoprotein lipase by ANGPTL4 : Insight into the regulation of plasma triglyceride metabolism

Author

Kristensen, Kristian K., Leth-Espensen, Katrine Zinck, Mertens, Haydyn D. T., Birrane, Gabriel, Meiyappan, Muthuraman, Olivecrona, Gunilla, Jørgensen, Thomas J. D., Young, Stephen G., Ploug, Michael, Kristensen, Kristian K., Leth-Espensen, Katrine Zinck, Mertens, Haydyn D. T., Birrane, Gabriel, Meiyappan, Muthuraman, Olivecrona, Gunilla, Jørgensen, Thomas J. D., Young, Stephen G., and Ploug, Michael

Abstract

The binding of lipoprotein lipase (LPL) to GPIHBP1 focuses the intravascular hydrolysis of triglyceride-rich lipoproteins on the surface of capillary endothelial cells. This process provides essential lipid nutrients for vital tissues (e.g., heart, skeletal muscle, and adipose tissue). Deficiencies in either LPL or GPIHBP1 impair triglyceride hydrolysis, resulting in severe hypertriglyceridemia. The activity of LPL in tissues is regulated by angiopoietin-like proteins 3, 4, and 8 (ANGPTL). Dogma has held that these ANGPTLs inactivate LPL by converting LPL homodimers into monomers, rendering them highly susceptible to spontaneous unfolding and loss of enzymatic activity. Here, we show that binding of an LPL-specific monoclonal antibody (5D2) to the tryptophan-rich lipid-binding loop in the carboxyl terminus of LPL prevents homodimer formation and forces LPL into a monomeric state. Of note, 5D2-bound LPL monomers are as stable as LPL homodimers (i.e., they are not more prone to unfolding), but they remain highly susceptible to ANGPTL4-catalyzed unfolding and inactivation. Binding of GPIHBP1 to LPL alone or to 5D2-bound LPL counteracts ANGPTL4-mediated unfolding of LPL. In conclusion, ANGPTL4-mediated inactivation of LPL, accomplished by catalyzing the unfolding of LPL, does not require the conversion of LPL homodimers into monomers. Thus, our findings necessitate changes to long-standing dogma on mechanisms for LPL inactivation by ANGPTL proteins. At the same time, our findings align well with insights into LPL function from the recent crystal structure of the LPL•GPIHBP1 complex.

Published
2020
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42. Maternal adipose tissue expansion, a missing link in the prediction of birth weight centile

Author

Jarvie, Eleanor M, Stewart, Frances M, Ramsay, Jane E, Brown, Elizabeth A, Meyer, Barbara J, Olivecrona, Gunilla, Griffin, Bruce A, Freeman, Dilys J, Jarvie, Eleanor M, Stewart, Frances M, Ramsay, Jane E, Brown, Elizabeth A, Meyer, Barbara J, Olivecrona, Gunilla, Griffin, Bruce A, and Freeman, Dilys J

Abstract

Context Maternal body mass index (BMI) is associated with increased birth weight but does not explain all the variance in fetal adiposity. Objective To assess the contribution of maternal body fat distribution to offspring birth weight and adiposity. Design Longitudinal study throughout gestation and at delivery. Setting Women recruited at 12 weeks of gestation and followed up at 26 and 36 weeks. Cord blood was collected at delivery. Patients Pregnant women (n = 45) with BMI 18.0 to 46.3 kg/m2 and healthy pregnancy outcome. Methods Maternal first trimester abdominal subcutaneous and visceral adipose tissue thickness (SAT and VAT) was assessed by ultrasound. Main Outcome Measures Maternal body fat distribution, maternal and cord plasma glucose and lipid concentrations, placental weight, birth weight, and fetal adiposity assessed by cord blood leptin. Results VAT was the only anthropometric measure independently associated with birth weight centile (r2 adjusted 15.8%, P = .002). BMI was associated with trimester 2 and trimesters 1 through 3 area under the curve (AUC) glucose and insulin resistance (Homeostatic Model Assessment). SAT alone predicted trimester 2 lipoprotein lipase (LPL) mass (a marker of adipocyte insulin sensitivity) (11.3%, P = .017). VAT was associated with fetal triglyceride (9.3%, P = .047). Placental weight was the only independent predictor of fetal adiposity (48%, P < .001). Maternal trimester 2 and AUC LPL were inversely associated with fetal adiposity (r = -0.69, P = .001 and r = -0.58, P = .006, respectively). Conclusions Maternal VAT provides additional information to BMI for prediction of birth weight. VAT may be a marker of reduced SAT expansion and increased availability of maternal fatty acids for placental transport.

Published
2020

43. Unfolding of monomeric lipoprotein lipase by ANGPTL4:Insight into the regulation of plasma triglyceride metabolism

Author

Kristensen, Kristian K., Leth-Espensen, Katrine Zinck, Mertens, Haydyn D. T., Birrane, Gabriel, Meiyappan, Muthuraman, Olivecrona, Gunilla, Jørgensen, Thomas J. D., Young, Stephen G., Ploug, Michael, Kristensen, Kristian K., Leth-Espensen, Katrine Zinck, Mertens, Haydyn D. T., Birrane, Gabriel, Meiyappan, Muthuraman, Olivecrona, Gunilla, Jørgensen, Thomas J. D., Young, Stephen G., and Ploug, Michael

Published
2020

44. Transthyretin constitutes a functional component in pancreatic [beta]-cell stimulus-secretion coupling

Author

Refai, Essam, Dekki, Nancy, Yang, Shao-Nian, Imreh, Gabriela, Cabrera, Over, Yu, Lina, Yang, Guang, Norgren, Svante, Rossner, Sophia M., Inverardi, Luca, Ricordi, Camillo, Olivecrona, Gunilla, Andersson, Mats, Jornvall, Hans, Berggren, Per-Olof, and Juntti-Berggren, Lisa

Subjects
Pancreatic beta cells -- Research, Neurosecretion -- Research, Science and technology
Abstract

Transthyretin (TTR) is a transport protein for thyroxine and, in association with retinol-binding protein, for retinol, mainly existing as a tetramer in vivo. We now demonstrate that TTR tetramer has a positive role in pancreatic [beta]-cell stimulus-secretion coupling. TTR promoted glucose-induced increases in cytoplasmic free [Ca.sup.2+] concentration ([[[Ca.sup.2+]].sub.i]) and insulin release. This resulted from a direct effect on glucose-induced electrical activity and voltagegated [Ca.sup.2+] channels. TTR also protected against [beta]-cell apoptosis. The concentration of TTR tetramer was decreased, whereas that of a monomeric form was increased in sera from patients with type 1 diabetes. The monomer was without effect on glucose-induced insulin release and apoptosis. Thus, TTR tetramer constitutes a component in normal [beta]-cell function. Conversion of TTR tetramer to monomer may be involved in the development of [beta]-cell failure/ destruction in type 1 diabetes. type 1 diabetes | [Ca.sup.2+] channels | insulin release | [beta]-cell signal transduction | apoptosis

Published
2005

45. Lipoprotein lipase in the kidney: activity varies widely among animal species

Author

Ruge, Toralph, Neuger, Lucyna, Sukonina, Valentina, Wu, Gengshu, Barath, Stefan, Gupta, Jitendra, Frankel, Barbara, Christophersen, Bjorn, Nordstoga, Knut, Olivecrona, Thomas, and Olivecrona, Gunilla

Subjects
Kidneys -- Research, Guinea pigs -- Research, Proteins -- Research, Biological sciences
Abstract

Ruge, Toralph, Lucyna Neuger, Valentina Sukonina, Gengshu Wu, Stefan Barath, Jitendra Gupta, Barbara Frankel, Bjorn Christophersen, Knut Nordstoga, Thomas Olivecrona, and Gunilla Olivecrona. Lipoprotein lipase in the kidney: activity varies widely among animal species. Am J Physiol Renal Physiol 287: F113l-F1139, 2004. First published August 3, 2004; doi: 10.1152/ ajprenal.00089.2004.--Much evidence points to a relationship among kidney disease, lipoprotein metabolism, and the enzyme lipoprotein lipase (LPL), but there is little information on LPL in the kidney. The range of LPL activity in the kidney in five species differed by >500-fold. The highest activity was in mink, followed by mice, Chinese hamsters, and rats, whereas the activity was low in guinea pigs. In contrast, the ranges for LPL activities in heart and adipose tissue were less than six- and fourfold, respectively. The activity in the kidney (in mice) decreased by >50% on food deprivation for 6 h without corresponding changes in mRNA or mass. This decrease in LPL activity did not occur when transcription was blocked with actinomycin D. Immunostaining for kidney LPL in mice and mink indicated that the enzyme is produced in tubular epithelial cells. To explore the previously suggested possibility that the negatively charged glomerular filter picks up LPL from the blood, bovine LPL was injected into rats and mice. This resulted in decoration of the glomerular capillary network with LPL. This study shows that in some species LPL is produced in the kidney and is subject to nutritional regulation by a posttranscriptional mechanism. In addition, LPL can be picked up from blood in the glomerulus. rat; mink; Chinese hamster; mouse; guinea pig; immunolocalization; nutritional regulation; transcription

Published
2004

46. Apolipoprotein CIII promotes [Ca.sup.2+]-dependent [beta] cell death in type 1 diabetes

Author

Juntti-Berggren, Lisa, Refai, Essam, Appelskog, Ioulia, Andersson, Mats, Imreh, Gabriela, Dekki, Nancy, Uhles, Sabine, Yu, Lina, Griffiths, William J., Zaitsev, Sergei, Leibiger, Ingo, Yang, Shao-Nian, Olivecrona, Gunilla, Jornvall, Hans, and Berggren, Per-Olof

Subjects
Apolipoproteins -- Research, Ion channels -- Research, Diabetes -- Research, Science and technology
Abstract

In type 1 diabetes (TID), there is a specific destruction of the insulin secreting pancreatic [beta] cell. Although the exact molecular mechanisms underlying [beta] cell destruction are not known, sera from TID patients have been shown to promote [Ca.sup.2+]-induced apoptosis. We now demonstrate that apolipoprotein CIII (apoCIII) is increased in serum from T1D patients and that this serum factor both induces increased cytoplasmic free intracellular [Ca.sup.2+] concentration ([[Ca.sup.2+]]i) and [beta] cell death. The apoCIII-induced increase in [[Ca.sup.2+]]i reflects an activation of the voltage-gated L-type [Ca.sup.2+] channel. Both the effects of T1D sera and apoCIII on the [beta] cell are abolished in the presence of antibody against apoCIII. Increased serum levels of apoCIII can thus account for the increase in [beta] cell [[Ca.sup.2+]]i and thereby [beta] cell apoptosis associated with TID.

Published
2004

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