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1. Discriminative Prediction of A-To-I RNA Editing Events from DNA Sequence.

Author

Jiangming Sun, Yang De Marinis, Peter Osmark, Pratibha Singh, Annika Bagge, Bérengère Valtat, Petter Vikman, Peter Spégel, and Hindrik Mulder

Subjects
Medicine, Science
Abstract

RNA editing is a post-transcriptional alteration of RNA sequences that, via insertions, deletions or base substitutions, can affect protein structure as well as RNA and protein expression. Recently, it has been suggested that RNA editing may be more frequent than previously thought. A great impediment, however, to a deeper understanding of this process is the paramount sequencing effort that needs to be undertaken to identify RNA editing events. Here, we describe an in silico approach, based on machine learning, that ameliorates this problem. Using 41 nucleotide long DNA sequences, we show that novel A-to-I RNA editing events can be predicted from known A-to-I RNA editing events intra- and interspecies. The validity of the proposed method was verified in an independent experimental dataset. Using our approach, 203 202 putative A-to-I RNA editing events were predicted in the whole human genome. Out of these, 9% were previously reported. The remaining sites require further validation, e.g., by targeted deep sequencing. In conclusion, the approach described here is a useful tool to identify potential A-to-I RNA editing events without the requirement of extensive RNA sequencing.

Published
2016
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3. A central role for GRB10 in regulation of islet function in man.

Author

Inga Prokopenko, Wenny Poon, Reedik Mägi, Rashmi Prasad B, S Albert Salehi, Peter Almgren, Peter Osmark, Nabila Bouatia-Naji, Nils Wierup, Tove Fall, Alena Stančáková, Adam Barker, Vasiliki Lagou, Clive Osmond, Weijia Xie, Jari Lahti, Anne U Jackson, Yu-Ching Cheng, Jie Liu, Jeffrey R O'Connell, Paul A Blomstedt, Joao Fadista, Sami Alkayyali, Tasnim Dayeh, Emma Ahlqvist, Jalal Taneera, Cecile Lecoeur, Ashish Kumar, Ola Hansson, Karin Hansson, Benjamin F Voight, Hyun Min Kang, Claire Levy-Marchal, Vincent Vatin, Aarno Palotie, Ann-Christine Syvänen, Andrea Mari, Michael N Weedon, Ruth J F Loos, Ken K Ong, Peter Nilsson, Bo Isomaa, Tiinamaija Tuomi, Nicholas J Wareham, Michael Stumvoll, Elisabeth Widen, Timo A Lakka, Claudia Langenberg, Anke Tönjes, Rainer Rauramaa, Johanna Kuusisto, Timothy M Frayling, Philippe Froguel, Mark Walker, Johan G Eriksson, Charlotte Ling, Peter Kovacs, Erik Ingelsson, Mark I McCarthy, Alan R Shuldiner, Kristi D Silver, Markku Laakso, Leif Groop, and Valeriya Lyssenko

Subjects
Genetics, QH426-470
Abstract

Variants in the growth factor receptor-bound protein 10 (GRB10) gene were in a GWAS meta-analysis associated with reduced glucose-stimulated insulin secretion and increased risk of type 2 diabetes (T2D) if inherited from the father, but inexplicably reduced fasting glucose when inherited from the mother. GRB10 is a negative regulator of insulin signaling and imprinted in a parent-of-origin fashion in different tissues. GRB10 knock-down in human pancreatic islets showed reduced insulin and glucagon secretion, which together with changes in insulin sensitivity may explain the paradoxical reduction of glucose despite a decrease in insulin secretion. Together, these findings suggest that tissue-specific methylation and possibly imprinting of GRB10 can influence glucose metabolism and contribute to T2D pathogenesis. The data also emphasize the need in genetic studies to consider whether risk alleles are inherited from the mother or the father.

Published
2014
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6. Ser649 and Ser650 are the major determinants of protein kinase A-mediated activation of human hormone-sensitive lipase against lipid substrates.

Author

Christian Krintel, Peter Osmark, Martin R Larsen, Svante Resjö, Derek T Logan, and Cecilia Holm

Subjects
Medicine, Science
Abstract

BACKGROUND: Hormone-sensitive lipase (HSL) is a key enzyme in the mobilization of fatty acids from stored triacylglycerols. Its activity is regulated by reversible protein phosphorylation. In rat HSL Ser563, Ser659 and Ser660 have been shown to be phosphorylated by protein kinase A (PKA) in vitro as well as in vivo. METHODOLOGY/PRINCIPAL FINDINGS: In this study we employed site-directed mutagenesis, in vitro phosphorylation and mass spectrometry to show that in vitro phosphorylation of human HSL by PKA occurs primarily on Ser649 and Ser650 (Ser659 and Ser660 in rat HSL). The wild type enzyme and four mutants were expressed in C-terminally His-tagged form in Sf9 insect cells and purified to homogeneity. HSL variants in which Ser552 and/or Ser554 were mutated to Ala or Glu retained both lipolytic and non-lipolytic activity and were phosphorylated by PKA and activated to a similar extent as the wild type enzyme. (32)P-labeling studies revealed that the bulk of the phosphorylation was on the Ser649/Ser650 site, with only a minor phosphorylation of Ser552 and Ser554. MS/MS analysis demonstrated that the peptide containing Ser649 and Ser650 was primarily phosphorylated on Ser650. The mutant lacking all four serines had severely reduced lipolytic activity, but a lesser reduction in non-lipolytic activity, had S(0.5) values for p-nitrophenol butyrate and triolein comparable to those of wild type HSL and was not phosphorylated by PKA. PKA phosphorylation of the wild type enzyme resulted in an increase in both the maximum turnover and S(0,5) using the TO substrate. CONCLUSIONS: Our results demonstrate that PKA activates human HSL against lipid substrates in vitro primarily through phosphorylation of Ser649 and Ser650. In addition the results suggest that Ser649 and Ser650 are located in the vicinity of a lipid binding region and that PKA phosphorylation controls the accessibility of this region.

Published
2008
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10. Impact of Environment on the Biomass Composition of Soybean (Glycine max) seeds

Author

McClure, Tamara, Cocuron, Jean-Christophe, Osmark, Veronika, McHale, Leah K., and Alonso, Ana Paula

Abstract

Factors including genetics, fertilization, and climatic conditions, can alter the biomass composition of soybean seeds, consequently impacting their market value and usage. This study specifically determined the content of protein and oil, as well as the composition of proteinogenic amino acids and fatty acids in seeds from 10 diverse soybean cultivars grown in four different sites. The results highlighted that different environments produce a different composition for the 10 cultivars under investigation. Specifically, the levels of oleic and linoleic acids, important contributors to oil stability, were negatively correlated. Although the protein and oil contents were higher in some locations, their “quality” was lower in terms of composition of essential amino acids and oleic acid, respectively. Finally, proteinogenic histidine and glutamate were the main contributors to the separation between Central and Northern growing sites. Taken together, these results can guide future breeding and engineering efforts aiming to develop specialized soybean lines.

Published
2024
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11. A link between GIP and osteopontin in adipose tissue and insulin resistance

Author

Ahlqvist E, Osmark P, Kuulasmaa T, Pilgaard K, Omar B, Brxf8ns C, Kotova O, Zetterqvist AV, Stančxe1kovxe1 A, Jonsson A, Hansson O, Kuusisto J, Kieffer TJ, Tuomi T, Isomaa B, Madsbad S, Gomez MF, Poulsen P, Laakso M, Degerman E, Pihlajamxe4ki J, Wierup N, Vaag A, Groop L, and Lyssenko V.

Published
2013

12. Pleiotropic effects of a variant in the GIPR gene on islet function and risk of type 2 diabetes

Author

Lyssenko V, Eliasson L, Kotova O, Pilgaard K, Wierup N, Salehi A, Wendt A, Jonsson A, De Marinis YZ, Nilsson-Berglund LM, Taneera J, Balhuizen A, Hansson O, Osmark P, Dunxe9r P, Brxf8ns C, Stančxe1kovxe1 A, Kuusisto J, Bugliani M, Saxena R, Ahlqvist E, Kieffer TJ, Tuomi T, Isomaa B, Melander O, Sonestedt E, Orho-Melander M, Nilsson P, Bonetti S, Bonadonna R, Miccoli R, DelPrato S, Marchetti P, Madsbad S, Poulsen P, Vaag A, Laakso M, . Gomez MF and Groop L.

Published
2011

15. Unique splicing pattern of the TCF7L2 gene in human pancreatic islets

Author

Osmark, P, Hansson, O, Jonsson, Anna Elisabet, Rönn, T, Groop, L, Renström, E, Osmark, P, Hansson, O, Jonsson, Anna Elisabet, Rönn, T, Groop, L, and Renström, E

Abstract

Intronic variation in the TCF7L2 gene exhibits the strongest association to type 2 diabetes observed to date, but the mechanism whereby this genetic variation translates into altered biological function is largely unknown. A possible explanation is a genotype-dependent difference in the complex splicing pattern; however, this has not previously been characterised in pancreatic or insulin target tissues. Here, the detailed TCF7L2 splicing pattern in five human tissues is described and dependence on risk genotype explored.

Published
2009

16. Characterisation of recombinant isoforms of birch pollen allergen Bet v 1

Author

Md, Spangfort, Ipsen H, Sh, Sparholt, Aasmul-Olsen S, Osmark P, Fm, Poulsen, Larsen M, Ejvind Mørtz, Roepstorff P, and Jn, Larsen

Subjects
Isoenzymes, Plant Extracts, Recombinant Fusion Proteins, Molecular Sequence Data, Pollen, Electrophoresis, Gel, Two-Dimensional, Amino Acid Sequence, Allergens, Antigens, Plant, Plant Proteins, Trees
Abstract

Three isoforms of the major birch pollen allergen, Bet v, 1 from Betula verrucosa have been expressed as recombinant proteins in E. coli and purified. The immunochemical properties of recombinant isoforms (rBet v 1) differed on immunoblots when compared using Mabs and birch pollen allergic patients serum IgE. 2-D gel analysis showed that recombinant isoforms with different epitope structure can focus under the same protein spot after electrophoresis. The structure of conformational epitopes can be distorted by amino acid substitutions even when T-cell epitopes are not affected as judged by T-cell proliferation studies.

Published
1996

18. Pleiotropic effects of GIP on islet function involve osteopontin.

Author

Lyssenko V, Eliasson L, Kotova O, Pilgaard K, Wierup N, Salehi A, Wendt A, Jonsson A, De Marinis YZ, Berglund LM, Taneera J, Balhuizen A, Hansson O, Osmark P, Dunér P, Brøns C, Stancáková A, Kuusisto J, Bugliani M, and Saxena R

Subjects
PROTEIN metabolism, ALLELES, GASTROINTESTINAL hormones, INSULIN, ISLANDS of Langerhans, TYPE 2 diabetes, PEPTIDES, SEQUENCE analysis
Abstract

Objective: The incretin hormone GIP (glucose-dependent insulinotropic polypeptide) promotes pancreatic β-cell function by potentiating insulin secretion and β-cell proliferation. Recently, a combined analysis of several genome-wide association studies (Meta-analysis of Glucose and Insulin-Related Traits Consortium [MAGIC]) showed association to postprandial insulin at the GIP receptor (GIPR) locus. Here we explored mechanisms that could explain the protective effects of GIP on islet function.Research Design and Methods: Associations of GIPR rs10423928 with metabolic and anthropometric phenotypes in both nondiabetic (N = 53,730) and type 2 diabetic individuals (N = 2,731) were explored by combining data from 11 studies. Insulin secretion was measured both in vivo in nondiabetic subjects and in vitro in islets from cadaver donors. Insulin secretion was also measured in response to exogenous GIP. The in vitro measurements included protein and gene expression as well as measurements of β-cell viability and proliferation.Results: The A allele of GIPR rs10423928 was associated with impaired glucose- and GIP-stimulated insulin secretion and a decrease in BMI, lean body mass, and waist circumference. The decrease in BMI almost completely neutralized the effect of impaired insulin secretion on risk of type 2 diabetes. Expression of GIPR mRNA was decreased in human islets from carriers of the A allele or patients with type 2 diabetes. GIP stimulated osteopontin (OPN) mRNA and protein expression. OPN expression was lower in carriers of the A allele. Both GIP and OPN prevented cytokine-induced reduction in cell viability (apoptosis). In addition, OPN stimulated cell proliferation in insulin-secreting cells.Conclusions: These findings support β-cell proliferative and antiapoptotic roles for GIP in addition to its action as an incretin hormone. Identification of a link between GIP and OPN may shed new light on the role of GIP in preservation of functional β-cell mass in humans. [ABSTRACT FROM AUTHOR]

Published
2011
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20. The formation of a native-like structure containing eight conserved hydrophobic residues is rate limiting in two-state protein folding of ACBP

Author

Kragelund, Birthe B., Osmark, Peter, Neergaard, Thomas B., Schiødt, Jacob, Kristiansen, Karsten, Knudsen, Jens, and Poulsen, Flemming M.

Abstract

The acyl-coenzyme A-binding proteins (ACBPs) contain 26 highly conserved sequence positions. The majority of these have been mutated in the bovine protein, and their influence on the rate of two-state folding and unfolding has been measured. The results identify eight sequence positions, out of 24 probed, that are critical for fast productive folding. The residues are all hydrophobic and located in the interface between the N- and C-terminal helices. The results suggest that one specific site dominated by conserved hydrophobic residues forms the structure of the productive rate-determining folding step and that a sequential framework model can describe the protein folding reaction.

Published
1999
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21. X-ray and NMR structure of Bet v 1, the origin of birch pollen allergy

Author

Gajhede, Michael, Osmark, Peter, Poulsen, Flemming M., Ipsen, Henrik, Larsen, Jørgen N., van Neerven, R.J. Joost, Schou, Carsten, Løwenstein, Henning, and Spangfort, Michael D.

Abstract

The three-dimensional structure of the major birch pollen allergen, the 17,500 Mracidic protein Bet v 1 (from the birch, Betula verrucosa), is presented as determined both in the crystalline state by X-ray diffraction and in solution by nuclear magnetic resonance (NMR) spectroscopy. This is the first experimentally determined structure of a clinically important inhalant major allergen, estimated to cause allergy in 5–10 million individuals worldwide. The structure shows three regions on the molecular surface predicted to harbour cross-reactive B-cell epitopes which provide a structural basis for the allergic symptoms that birch pollen allergic patients show when they encounter pollens from related trees such as hazel, alder and hornbeam. The structure also shows an unusual feature, a 30 Å-long forked cavity that penetrates the entire protein.

Published
1996
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23. PNPLA3 variant M148 causes resistance to starvation-mediated lipid droplet autophagy in human hepatocytes.

Author

Negoita F, Blomdahl J, Wasserstrom S, Winberg ME, Osmark P, Larsson S, Stenkula KG, Ekstedt M, Kechagias S, Holm C, and Jones HA

Subjects
Autophagosomes metabolism, Biopsy, Cathepsin B metabolism, Cohort Studies, Genotype, Hep G2 Cells, Humans, Lipase metabolism, Lipid Metabolism, Liver pathology, Lysosomal Membrane Proteins metabolism, Lysosomes metabolism, Membrane Proteins metabolism, Microscopy, Fluorescence, Microtubule-Associated Proteins metabolism, Non-alcoholic Fatty Liver Disease pathology, Transfection, Autophagy, Genetic Variation, Hepatocytes metabolism, Lipase genetics, Lipid Droplets metabolism, Membrane Proteins genetics, Non-alcoholic Fatty Liver Disease metabolism
Abstract

The mechanism of how patatin-like phospholipase domain-containing protein 3 (PNPLA3) variant M148 is associated with increased risk of development of hepatic steatosis is still debated. Here, we propose a novel role of PNPLA3 as a key player during autophagosome formation in the process of lipophagy. A human hepatocyte cell line, HepG2 cells, expressing recombinant I148 or 148M, was used to study lipophagy under energy deprived conditions, and lipid droplet morphology was investigated using florescence microscopy, image analysis and biochemical assays. Autophagic flux was studied using the golden-standard of LC3-II turnover in combination with the well characterized GFP-RFP-LC3 vector. To discriminate between, perturbed autophagic initiation and lysosome functionality, lysosomes were characterized by Lysotracker staining and LAMP1 protein levels as well as activity and activation of cathepsin B. For validation, human liver biopsies genotyped for I148 and 148M were analyzed for the presence of LC3-II and PNPLA3 on lipid droplets. We show that the M148-PNPLA3 variant is associated with lipid droplets that are resistant to starvation-mediated degradation. M148 expressing hepatocytes reveal decreased autophagic flux and reduced lipophagy. Both I148-PNPLA3 and M148-PNPLA3 colocalize and interact with LC3-II, but the M148-PNPLA3 variant has lower ability to bind LC3-II. Together, our data indicate that PNPLA3 might play an essential role in lipophagy in hepatocytes and furthermore that the M148-PNPLA3 variant appears to display a loss in this activity, leading to decreased lipophagy., (© 2018 Wiley Periodicals, Inc.)

Published
2019
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24. Discriminative Prediction of A-To-I RNA Editing Events from DNA Sequence.

Author

Sun J, De Marinis Y, Osmark P, Singh P, Bagge A, Valtat B, Vikman P, Spégel P, and Mulder H

Subjects
Animals, Base Sequence, Computer Simulation, Genome, Human genetics, Humans, Machine Learning, Mice, Adenosine metabolism, Computational Biology methods, DNA genetics, Inosine metabolism, RNA Editing
Abstract

RNA editing is a post-transcriptional alteration of RNA sequences that, via insertions, deletions or base substitutions, can affect protein structure as well as RNA and protein expression. Recently, it has been suggested that RNA editing may be more frequent than previously thought. A great impediment, however, to a deeper understanding of this process is the paramount sequencing effort that needs to be undertaken to identify RNA editing events. Here, we describe an in silico approach, based on machine learning, that ameliorates this problem. Using 41 nucleotide long DNA sequences, we show that novel A-to-I RNA editing events can be predicted from known A-to-I RNA editing events intra- and interspecies. The validity of the proposed method was verified in an independent experimental dataset. Using our approach, 203 202 putative A-to-I RNA editing events were predicted in the whole human genome. Out of these, 9% were previously reported. The remaining sites require further validation, e.g., by targeted deep sequencing. In conclusion, the approach described here is a useful tool to identify potential A-to-I RNA editing events without the requirement of extensive RNA sequencing., Competing Interests: We received funding from a commercial source: Novo Nordisk. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published
2016
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25. Global genomic and transcriptomic analysis of human pancreatic islets reveals novel genes influencing glucose metabolism.

Author

Fadista J, Vikman P, Laakso EO, Mollet IG, Esguerra JL, Taneera J, Storm P, Osmark P, Ladenvall C, Prasad RB, Hansson KB, Finotello F, Uvebrant K, Ofori JK, Di Camillo B, Krus U, Cilio CM, Hansson O, Eliasson L, Rosengren AH, Renström E, Wollheim CB, and Groop L

Subjects
5'-Nucleotidase biosynthesis, 5'-Nucleotidase genetics, Cell Line, Diabetes Mellitus, Type 2 genetics, Diabetes Mellitus, Type 2 metabolism, Female, GPI-Linked Proteins biosynthesis, GPI-Linked Proteins genetics, Humans, Islets of Langerhans, Male, RNA Editing physiology, RNA, Long Noncoding biosynthesis, RNA, Long Noncoding genetics, Tetraspanins biosynthesis, Tetraspanins genetics, Vesicular Transport Proteins biosynthesis, Vesicular Transport Proteins genetics, p21-Activated Kinases biosynthesis, p21-Activated Kinases genetics, Genomics, Glucose genetics, Glucose metabolism, Transcriptome physiology
Abstract

Genetic variation can modulate gene expression, and thereby phenotypic variation and susceptibility to complex diseases such as type 2 diabetes (T2D). Here we harnessed the potential of DNA and RNA sequencing in human pancreatic islets from 89 deceased donors to identify genes of potential importance in the pathogenesis of T2D. We present a catalog of genetic variants regulating gene expression (eQTL) and exon use (sQTL), including many long noncoding RNAs, which are enriched in known T2D-associated loci. Of 35 eQTL genes, whose expression differed between normoglycemic and hyperglycemic individuals, siRNA of tetraspanin 33 (TSPAN33), 5'-nucleotidase, ecto (NT5E), transmembrane emp24 protein transport domain containing 6 (TMED6), and p21 protein activated kinase 7 (PAK7) in INS1 cells resulted in reduced glucose-stimulated insulin secretion. In addition, we provide a genome-wide catalog of allelic expression imbalance, which is also enriched in known T2D-associated loci. Notably, allelic imbalance in paternally expressed gene 3 (PEG3) was associated with its promoter methylation and T2D status. Finally, RNA editing events were less common in islets than previously suggested in other tissues. Taken together, this study provides new insights into the complexity of gene regulation in human pancreatic islets and better understanding of how genetic variation can influence glucose metabolism.

Published
2014
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26. A central role for GRB10 in regulation of islet function in man.

Author

Prokopenko I, Poon W, Mägi R, Prasad B R, Salehi SA, Almgren P, Osmark P, Bouatia-Naji N, Wierup N, Fall T, Stančáková A, Barker A, Lagou V, Osmond C, Xie W, Lahti J, Jackson AU, Cheng YC, Liu J, O'Connell JR, Blomstedt PA, Fadista J, Alkayyali S, Dayeh T, Ahlqvist E, Taneera J, Lecoeur C, Kumar A, Hansson O, Hansson K, Voight BF, Kang HM, Levy-Marchal C, Vatin V, Palotie A, Syvänen AC, Mari A, Weedon MN, Loos RJ, Ong KK, Nilsson P, Isomaa B, Tuomi T, Wareham NJ, Stumvoll M, Widen E, Lakka TA, Langenberg C, Tönjes A, Rauramaa R, Kuusisto J, Frayling TM, Froguel P, Walker M, Eriksson JG, Ling C, Kovacs P, Ingelsson E, McCarthy MI, Shuldiner AR, Silver KD, Laakso M, Groop L, and Lyssenko V

Subjects
Alleles, Diabetes Mellitus, Type 2, Fasting metabolism, Genome-Wide Association Study methods, Glucose genetics, Glucose metabolism, Humans, Insulin genetics, Insulin metabolism, Insulin Resistance genetics, Male, Middle Aged, Polymorphism, Single Nucleotide genetics, Receptor, Insulin genetics, Receptor, Insulin metabolism, Signal Transduction genetics, GRB10 Adaptor Protein genetics, GRB10 Adaptor Protein metabolism, Islets of Langerhans metabolism
Abstract

Variants in the growth factor receptor-bound protein 10 (GRB10) gene were in a GWAS meta-analysis associated with reduced glucose-stimulated insulin secretion and increased risk of type 2 diabetes (T2D) if inherited from the father, but inexplicably reduced fasting glucose when inherited from the mother. GRB10 is a negative regulator of insulin signaling and imprinted in a parent-of-origin fashion in different tissues. GRB10 knock-down in human pancreatic islets showed reduced insulin and glucagon secretion, which together with changes in insulin sensitivity may explain the paradoxical reduction of glucose despite a decrease in insulin secretion. Together, these findings suggest that tissue-specific methylation and possibly imprinting of GRB10 can influence glucose metabolism and contribute to T2D pathogenesis. The data also emphasize the need in genetic studies to consider whether risk alleles are inherited from the mother or the father.

Published
2014
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27. Link between GIP and osteopontin in adipose tissue and insulin resistance.

Author

Ahlqvist E, Osmark P, Kuulasmaa T, Pilgaard K, Omar B, Brøns C, Kotova O, Zetterqvist AV, Stancáková A, Jonsson A, Hansson O, Kuusisto J, Kieffer TJ, Tuomi T, Isomaa B, Madsbad S, Gomez MF, Poulsen P, Laakso M, Degerman E, Pihlajamäki J, Wierup N, Vaag A, Groop L, and Lyssenko V

Subjects
Adipose Tissue drug effects, Adolescent, Adult, Aged, Alleles, Animals, Cells, Cultured, Female, Humans, In Vitro Techniques, Insulin Resistance genetics, Male, Mice, Middle Aged, Osteopontin genetics, Rats, Receptors, Gastrointestinal Hormone genetics, Receptors, Gastrointestinal Hormone metabolism, Young Adult, Adipose Tissue metabolism, Gastric Inhibitory Polypeptide pharmacology, Insulin Resistance physiology
Abstract

Low-grade inflammation in obesity is associated with accumulation of the macrophage-derived cytokine osteopontin (OPN) in adipose tissue and induction of local as well as systemic insulin resistance. Since glucose-dependent insulinotropic polypeptide (GIP) is a strong stimulator of adipogenesis and may play a role in the development of obesity, we explored whether GIP directly would stimulate OPN expression in adipose tissue and thereby induce insulin resistance. GIP stimulated OPN protein expression in a dose-dependent fashion in rat primary adipocytes. The level of OPN mRNA was higher in adipose tissue of obese individuals (0.13 ± 0.04 vs. 0.04 ± 0.01, P < 0.05) and correlated inversely with measures of insulin sensitivity (r = -0.24, P = 0.001). A common variant of the GIP receptor (GIPR) (rs10423928) gene was associated with a lower amount of the exon 9-containing isoform required for transmembrane activity. Carriers of the A allele with a reduced receptor function showed lower adipose tissue OPN mRNA levels and better insulin sensitivity. Together, these data suggest a role for GIP not only as an incretin hormone but also as a trigger of inflammation and insulin resistance in adipose tissue. Carriers of the GIPR rs10423928 A allele showed protective properties via reduced GIP effects. Identification of this unprecedented link between GIP and OPN in adipose tissue might open new avenues for therapeutic interventions.

Published
2013
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28. NFAT regulates the expression of AIF-1 and IRT-1: yin and yang splice variants of neointima formation and atherosclerosis.

Author

Berglund LM, Kotova O, Osmark P, Grufman H, Xing C, Lydrup ML, Goncalves I, Autieri MV, and Gomez MF

Subjects
Angioplasty, Balloon, Coronary adverse effects, Animals, Calcium-Binding Proteins, Carotid Arteries pathology, Carotid Artery Injuries metabolism, Carotid Artery Injuries pathology, Coronary Restenosis metabolism, Coronary Restenosis pathology, Coronary Vessels pathology, DNA-Binding Proteins metabolism, Disease Models, Animal, Female, Humans, Male, Microfilament Proteins, Muscle, Smooth, Vascular pathology, Myometrium blood supply, Organ Culture Techniques, Rats, Rats, Sprague-Dawley, Signal Transduction physiology, Alternative Splicing physiology, Carotid Artery Diseases genetics, Carotid Artery Diseases metabolism, Carotid Artery Diseases pathology, Coronary Artery Disease genetics, Coronary Artery Disease metabolism, Coronary Artery Disease pathology, DNA-Binding Proteins genetics, NFATC Transcription Factors metabolism, Neointima genetics, Neointima metabolism, Neointima pathology
Abstract

Aims: Alternative transcription and splicing of the allograft inflammatory factor-1 (AIF-1) gene results in the expression of two different proteins: AIF-1 and interferon responsive transcript-1 (IRT-1).  Here, we explore the impact of AIF-1 and IRT-1 on vascular smooth muscle cell (VSMC) activation and neointima formation, the mechanisms underlying their alternative splicing, and associations of AIF-1 and IRT-1 mRNA with parameters defining human atherosclerotic plaque phenotype., Methods and Results: Translation of AIF-1 and IRT-1 results in different products with contrasting cellular distribution and functions. Overexpression of AIF-1 stimulates migration and proliferation of human VSMCs, whereas IRT-1 exerts opposite effects. Adenoviral infection of angioplasty-injured rat carotid arteries with AdAIF-1 exacerbates intima hyperplasia, whereas infection with AdIRT-1 reduces neointima. Expression of these variants is modulated by changes in nuclear factor of activated T-cells (NFAT) activity.  Pharmacological inhibition of NFAT or targeting of NFATc3 with small interfering RNA (siRNA) lowers the AIF-1/IRT-1 ratio and favours an anti-proliferative outcome.  NFAT acts as a repressor on the IRT-1 transcriptional start site, which is also sensitive to interferon-γ stimulation. Expression of AIF-1 mRNA in human carotid plaques associates with less extracellular matrix and a more pro-inflammatory plaque and plasma profile, features that may predispose to plaque rupture. In contrast, expression of IRT-1 mRNA associates with a less aggressive phenotype and less VSMCs at the most stenotic region of the plaque., Conclusion: Inhibition of NFAT signalling, by shifting the AIF-1/IRT-1 ratio, may be an attractive target to regulate the VSMC response to injury and manipulate plaque stability in atherosclerosis.

Published
2012
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29. Survival of pancreatic beta cells is partly controlled by a TCF7L2-p53-p53INP1-dependent pathway.

Author

Zhou Y, Zhang E, Berggreen C, Jing X, Osmark P, Lang S, Cilio CM, Göransson O, Groop L, Renström E, and Hansson O

Subjects
Animals, Apoptosis Regulatory Proteins, Cell Line, Cell Survival, Diabetes Mellitus, Type 2 genetics, Gene Expression Regulation, Humans, Insulin-Secreting Cells metabolism, Nuclear Proteins, Rats, Rats, Wistar, Signal Transduction, Transcription Factor 7-Like 2 Protein genetics, Tumor Suppressor Protein p53 genetics, Carrier Proteins metabolism, Diabetes Mellitus, Type 2 metabolism, Diabetes Mellitus, Type 2 physiopathology, Heat-Shock Proteins metabolism, Insulin-Secreting Cells cytology, Transcription Factor 7-Like 2 Protein metabolism, Tumor Suppressor Protein p53 metabolism
Abstract

The transcription factor T-cell factor 7-like 2 (TCF7L2) confers type 2 diabetes risk mainly through impaired insulin secretion, perturbed incretin effect and reduced beta-cell survival. The aim of this study was to identify the molecular mechanism through which TCF7L2 influences beta-cell survival. TCF7L2 target genes in INS-1 cells were identified using Chromatin Immunoprecipitation. Validation of targets was obtained by: siRNA silencing, real-time quantitative polymerase chain reaction, electrophoretic mobility shift assay, luciferase reporter assays and western blot. Apoptosis rate was measured by DNA degradation and caspase-3 content. Islet viability was estimated by measuring metabolic rate. TCF7L2 binds to 3646 gene promoters in INS-1 cells in high or low glucose, including Tp53, Pten, Uggt1, Adamts9 and Fto. SiRNA-mediated reduction in TCF7L2 activity resulted in increased apoptosis and increased expression of Tp53, which resulted in elevated p53 protein activity and an increased expression of the p53 target gene Tp53inp1 (encoding p53-induced-nuclear-protein 1). Reversing the increase in p53INP1 protein expression, seen after Tcf7l2 silencing, protected INS-1 cells from Tcf7l2 depletion-induced apoptosis. This result was replicated in primary rat islets. The risk T-allele of rs7903146 is associated with increased TCF7L2 mRNA expression and transcriptional activity. On the other hand, in vitro silencing of TCF7L2 lead to increased apoptosis. One possibility is that the risk T-allele increases expression of an inhibitory TCF7L2 isoform with lower transcriptional activity. These results identify the p53-p53INP1 pathway as a molecular mechanism through which TCF7L2 may affect beta-cell survival and established a molecular link between Tcf7l2 and two type 2 diabetes-associated genes, Tp53inp1 and Adamts9.

Published
2012
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30. Disturbed cholesterol homeostasis in hormone-sensitive lipase-null mice.

Author

Fernandez C, Lindholm M, Krogh M, Lucas S, Larsson S, Osmark P, Berger K, Borén J, Fielding B, Frayn K, and Holm C

Subjects
ATP Binding Cassette Transporter 1, ATP-Binding Cassette Transporters biosynthesis, ATP-Binding Cassette Transporters genetics, Animals, Cholesterol biosynthesis, Cholesterol metabolism, Cytosol metabolism, Down-Regulation physiology, Fatty Acids metabolism, Hepatocytes metabolism, Hydroxymethylglutaryl-CoA Reductase Inhibitors pharmacology, Lipids blood, Lipoproteins blood, Liver metabolism, Mice, Mice, Knockout, Oligonucleotide Array Sequence Analysis, Reverse Transcriptase Polymerase Chain Reaction, Triglycerides metabolism, Cholesterol physiology, Homeostasis physiology, Sterol Esterase genetics, Sterol Esterase physiology
Abstract

Transcriptomics analysis revealed that genes involved in hepatic de novo cholesterol synthesis were downregulated in fed HSL-null mice that had been on a high-fat diet (HFD) for 6 mo. This finding prompted a further analysis of cholesterol metabolism in HSL-null mice, which was performed in fed and 16-h-fasted mice on a normal chow diet (ND) or HFD regimen. Plasma cholesterol was elevated in HSL-null mice, in all tested conditions, as a result of cholesterol enrichment of HDL and VLDL. Hepatic esterified cholesterol content and ATP-binding cassette transporter A1 (ABCA1) mRNA and protein levels were increased in HSL-null mice regardless of the dietary regimen. Unsaturated fatty acid composition of hepatic triglycerides was modified in fasted HSL-null mice on ND and HFD. The increased ABCA1 expression had no major effect on cholesterol efflux from HSL-null mouse hepatocytes. Taken together, the results of this study suggest that HSL plays a critical role in the hydrolysis of cytosolic cholesteryl esters and that increased levels of hepatic cholesteryl esters, due to lack of action of HSL in the liver, are the main mechanism underlying the imbalance in cholesterol metabolism in HSL-null mice.

Published
2008
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31. Ser649 and Ser650 are the major determinants of protein kinase A-mediated activation of human hormone-sensitive lipase against lipid substrates.

Author

Krintel C, Osmark P, Larsen MR, Resjö S, Logan DT, and Holm C

Subjects
Animals, Chromatography, Liquid methods, Cyclic AMP-Dependent Protein Kinases chemistry, Enzyme Activation, Fatty Acids chemistry, Genetic Vectors, Humans, Insecta, Phosphorylation, Rats, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Sterol Esterase chemistry, Triglycerides chemistry, Cyclic AMP-Dependent Protein Kinases metabolism, Lipids chemistry, Serine chemistry, Sterol Esterase metabolism
Abstract

Background: Hormone-sensitive lipase (HSL) is a key enzyme in the mobilization of fatty acids from stored triacylglycerols. Its activity is regulated by reversible protein phosphorylation. In rat HSL Ser563, Ser659 and Ser660 have been shown to be phosphorylated by protein kinase A (PKA) in vitro as well as in vivo., Methodology/principal Findings: In this study we employed site-directed mutagenesis, in vitro phosphorylation and mass spectrometry to show that in vitro phosphorylation of human HSL by PKA occurs primarily on Ser649 and Ser650 (Ser659 and Ser660 in rat HSL). The wild type enzyme and four mutants were expressed in C-terminally His-tagged form in Sf9 insect cells and purified to homogeneity. HSL variants in which Ser552 and/or Ser554 were mutated to Ala or Glu retained both lipolytic and non-lipolytic activity and were phosphorylated by PKA and activated to a similar extent as the wild type enzyme. (32)P-labeling studies revealed that the bulk of the phosphorylation was on the Ser649/Ser650 site, with only a minor phosphorylation of Ser552 and Ser554. MS/MS analysis demonstrated that the peptide containing Ser649 and Ser650 was primarily phosphorylated on Ser650. The mutant lacking all four serines had severely reduced lipolytic activity, but a lesser reduction in non-lipolytic activity, had S(0.5) values for p-nitrophenol butyrate and triolein comparable to those of wild type HSL and was not phosphorylated by PKA. PKA phosphorylation of the wild type enzyme resulted in an increase in both the maximum turnover and S(0,5) using the TO substrate., Conclusions: Our results demonstrate that PKA activates human HSL against lipid substrates in vitro primarily through phosphorylation of Ser649 and Ser650. In addition the results suggest that Ser649 and Ser650 are located in the vicinity of a lipid binding region and that PKA phosphorylation controls the accessibility of this region.

Published
2008
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32. Competitive adsorption of proteins from total hen egg yolk during emulsification.

Author

Nilsson L, Osmark P, Fernandez C, and Bergenståhl B

Subjects
Adsorption, Animals, Chickens, Electrophoresis, Gel, Two-Dimensional, Female, Hydrogen-Ion Concentration, Mass Spectrometry, Egg Proteins chemistry, Emulsions chemistry
Abstract

In this article, the competitive adsorption of egg yolk proteins at oil/water interfaces during emulsification is studied. By using two-dimensional polyacrylamide electrophoresis and mass spectrometry, it was possible to characterize and identify adsorbing and non-adsorbing protein species. The egg yolk contains proteins with a wide range of molecular weights and pI. Lipoproteins adsorbed selectively throughout the pH range investigated. It is suggested that selectivity is determined by the average hydrophobic and hydrophilic domain lengths in the protein sequences where long average hydrophobic domain lengths result in high affinity for the interface and thus strong preferential adsorption.

Published
2007
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33. Production of recombinant human alpha1-microglobulin and mutant forms involved in chromophore formation.

Author

Kwasek A, Osmark P, Allhorn M, Lindqvist A, Akerström B, and Wasylewski Z

Subjects
Alpha-Globulins genetics, Alpha-Globulins isolation & purification, Alpha-Globulins urine, Animals, Cattle, Chromatography, Affinity, Chromatography, Gel, Circular Dichroism, Cloning, Molecular, Dimerization, Electrophoresis, Polyacrylamide Gel, Escherichia coli genetics, Heme metabolism, Humans, Inclusion Bodies chemistry, Isoelectric Focusing, Ligands, Models, Molecular, Molecular Weight, Protein Binding, Protein Folding, Radioimmunoassay, Recombinant Proteins biosynthesis, Recombinant Proteins blood, Recombinant Proteins chemistry, Recombinant Proteins isolation & purification, Recombinant Proteins urine, Serum Albumin, Bovine chemistry, Spectrometry, Fluorescence, Spectrophotometry, Ultraviolet, Transformation, Genetic, Alpha-Globulins biosynthesis, Alpha-Globulins chemistry, Mutation
Abstract

Alpha(1)-Microglobulin, a 26 kDa lipocalin present in plasma and tissues, carries a set of unknown chromophores, bound to C34, K92, K118 and K130, which cause its charge and size heterogeneity. In man, the protein is found in two forms, full length and lacking the C-terminal tetrapeptide LIPR (t-alpha(1)-microglobulin), both which are heme-binding and the latter with heme-degrading properties. We report cloning and overexpression of full length alpha(1)-microglobulin (wt protein), t-alpha(1)-microglobulin (wtdeltaLIPR) and the mutants C34S, K(92,118,130)T and C34S/K(92,118,130)T, the latter subsequently abbreviated as K(3)T and C34S/K(3)T, in Escherichia coli. After purification and refolding from inclusion bodies, all proteins were correctly folded as determined by far-UV circular dichroism and radioimmunoassay. As revealed by gel filtration, recombinant alpha(1)-microglobulins had lower tendencies to form dimers than human plasma or urine analogues. All alpha(1)-microglobulin forms displayed higher amounts of the chromophore than bovine serum albumin but significantly lower than the human urine or plasma counterparts. Differences in the absorbance and fluorescence profiles are consistent with a model where the chromophore is formed by a series of reactions with heme or other chromophore precursors and where C34 is essential for binding of the ligand, K92, K118 and K130 are involved in transformation into the chromophore and LIPR inhibits the latter reaction.

Published
2007
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34. Competitive adsorption of water soluble plasma proteins from egg yolk at the oil/water interface.

Author

Nilsson L, Osmark P, Fernandez C, Andersson M, and Bergenståhl B

Subjects
Adsorption, Animals, Chickens, Electrophoresis, Polyacrylamide Gel, Hydrogen-Ion Concentration, Solubility, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Egg Proteins chemistry, Egg Yolk chemistry, Emulsions chemistry, Oils, Water
Abstract

Water soluble plasma proteins were fractionated from hen's egg yolk, and the molecular weight and pI of the most abundant protein species were characterized with gel electrophoresis. The proteins were identified by mass spectrometry. The protein fraction was used to produce oil-in-water emulsions, both at various protein concentrations and at various pH values, and the surface load was determined through serum depletion. The competitive adsorption was studied through the determination of nonadsorbing species with gel electrophoresis. The results show that it was possible to form an oil-in-water emulsion for which droplet size and maximum surface load depended on the protein concentration and pH. Serum albumin and YGP40 adsorbed selectively at the oil/water interface throughout the pH range investigated, and for albumin the selectivity increased close to its pI. It is suggested that this selective adsorption is due to long hydrophobic stretches in the polypeptide chain, which are present in the selectively adsorbing species but absent in less adsorbing species.

Published
2006
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35. Heat elution chromatography of immunoglobulins.

Author

Osmark P, Cedervall T, Pieters K, and Akerström B

Subjects
Animals, Carrier Proteins metabolism, Immunoglobulin G chemistry, Immunoglobulin G metabolism, Membrane Proteins metabolism, Rabbits, Bacterial Proteins, Chromatography methods, Hot Temperature, Immunoglobulin G isolation & purification
Abstract

A tremendous increase has taken place over the last decades in the biochemical and clinical use of antibodies. Unfortunately, the constantly growing demand has not been matched by a corresponding easy access to pure immunoglobulin, as purification procedures tend to be either laborious, expensive, or inefficient. We present a new and simplified method to obtain pure antibody based on the special thermal properties of the streptococcal M proteins, a family of cell-surface exposed coiled-coil molecules which bind different sets of host plasma proteins. The coiled-coil structure is already destabilized at low temperatures and the M proteins unfold reversibly, usually below 40 degrees C. We demonstrate the use of this property to purify immunoglobulin G from rabbit serum with protein H from the AP1 strain of Streptococcus pyogenes. Recombinant protein H is linked to nickel-agarose via a C-terminal histidine tag. After mixing with rabbit serum and washing at room temperature, pure IgG can be eluted from the gel with a moderately heated buffer. In this case, protein H has been used to purify rabbit IgG, but the principle should be applicable to other M protein-ligand pairs.

Published
2003
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36. alpha(1)-Microglobulin: a yellow-brown lipocalin.

Author

Akerström B, Lögdberg L, Berggård T, Osmark P, and Lindqvist A

Subjects
Alpha-Globulins genetics, Alpha-Globulins immunology, Animals, Humans, Immunity, Membrane Glycoproteins biosynthesis, Models, Molecular, Protein Conformation, Protein Processing, Post-Translational, Tissue Distribution, Alpha-Globulins chemistry, Alpha-Globulins metabolism, Trypsin Inhibitor, Kunitz Soybean
Abstract

alpha(1)-Microglobulin, also called protein HC, is a lipocalin with immunosuppressive properties. The protein has been found in a number of vertebrate species including frogs and fish. This review summarizes the present knowledge of its structure, biosynthesis, tissue distribution and immunoregulatory properties. alpha(1)-Microglobulin has a yellow-brown color and is size and charge heterogeneous. This is caused by an array of small chromophore prosthetic groups, attached to amino acid residues at the entrance of the lipocalin pocket. A gene in the lipocalin cluster encodes alpha(1)-microglobulin together with a Kunitz-type proteinase inhibitor, bikunin. The gene is translated into the alpha(1)-microglobulin-bikunin precursor, which is subsequently cleaved and the two proteins secreted to the blood separately. alpha(1)-Microglobulin is found in blood and in connective tissue in most organs. It is most abundant at interfaces between the cells of the body and the environment, such as in lungs, intestine, kidneys and placenta. alpha(1)-Microglobulin inhibits immunological functions of white blood cells in vitro, and its distribution is consistent with an anti-inflammatory and protective role in vivo.

Published
2000
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37. The formation of a native-like structure containing eight conserved hydrophobic residues is rate limiting in two-state protein folding of ACBP.

Author

Kragelund BB, Osmark P, Neergaard TB, Schiødt J, Kristiansen K, Knudsen J, and Poulsen FM

Subjects
Amino Acid Sequence, Amino Acid Substitution, Animals, Carrier Proteins genetics, Carrier Proteins metabolism, Cattle, Diazepam Binding Inhibitor, Guanidine, Hydrogen Bonding, Kinetics, Membrane Proteins chemistry, Membrane Proteins metabolism, Methyl-Accepting Chemotaxis Proteins, Models, Molecular, Molecular Sequence Data, Peptides, Plant Proteins chemistry, Plant Proteins metabolism, Protein Denaturation, Protein Structure, Secondary, Repressor Proteins chemistry, Repressor Proteins metabolism, Spectrometry, Fluorescence, Thermodynamics, Bacterial Proteins, Carrier Proteins chemistry, Conserved Sequence genetics, Protein Folding
Abstract

The acyl-coenzyme A-binding proteins (ACBPs) contain 26 highly conserved sequence positions. The majority of these have been mutated in the bovine protein, and their influence on the rate of two-state folding and unfolding has been measured. The results identify eight sequence positions, out of 24 probed, that are critical for fast productive folding. The residues are all hydrophobic and located in the interface between the N- and C-terminal helices. The results suggest that one specific site dominated by conserved hydrophobic residues forms the structure of the productive rate-determining folding step and that a sequential framework model can describe the protein folding reaction.

Published
1999
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38. Three-dimensional structure and epitopes of Bet v 1.

Author

Spangfort MD, Gajhede M, Osmark P, Poulsen FM, Ipsen H, Larsen JN, van Neerven RJ, Schou C, and Løwenstein H

Subjects
Antigens, Plant, Humans, Plant Proteins immunology, Protein Structure, Secondary, Recombinant Proteins chemistry, Recombinant Proteins immunology, Allergens chemistry, Epitopes, Plant Proteins chemistry
Published
1997
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39. X-ray and NMR structure of Bet v 1, the origin of birch pollen allergy.

Author

Gajhede M, Osmark P, Poulsen FM, Ipsen H, Larsen JN, Joost van Neerven RJ, Schou C, Løwenstein H, and Spangfort MD

Subjects
Amino Acid Sequence, Antigens, Plant, Crystallography, X-Ray, Epitopes, T-Lymphocyte chemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Sequence Data, Protein Conformation, Allergens chemistry, Plant Proteins chemistry, Pollen chemistry
Abstract

The three-dimensional structure of the major birch pollen allergen, the 17,500 M(r) acidic protein Bet v 1 (from the birch, Betula verrucosa), is presented as determined both in the crystalline state by X-ray diffraction and in solution by nuclear magnetic resonance (NMR) spectroscopy. This is the first experimentally determined structure of a clinically important inhalant major allergen, estimated to cause allergy in 5-10 million individuals worldwide. The structure shows three regions on the molecular surface predicted to harbour cross-reactive B-cell epitopes which provide a structural basis for the allergic symptoms that birch pollen allergic patients show when they encounter pollens from related trees such as hazel, alder and hornbeam. The structure also shows an unusual feature, a 30 A-long forked cavity that penetrates the entire protein.

Published
1996
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