Your search keyword '"Peter Bergsten"' showing total 5 results

1. Childhood adiposity and risk of type 1 diabetes: A Mendelian randomization study.

Author

J C Censin, Christoph Nowak, Nicholas Cooper, Peter Bergsten, John A Todd, and Tove Fall

Subjects

Medicine

Abstract

The incidence of type 1 diabetes (T1D) is increasing globally. One hypothesis is that increasing childhood obesity rates may explain part of this increase, but, as T1D is rare, intervention studies are challenging to perform. The aim of this study was to assess this hypothesis with a Mendelian randomization approach that uses genetic variants as instrumental variables to test for causal associations.We created a genetic instrument of 23 single nucleotide polymorphisms (SNPs) associated with childhood adiposity in children aged 2-10 years. Summary-level association results for these 23 SNPs with childhood-onset (

Published

2017

2. Combined lipidomic and proteomic analysis of isolated human islets exposed to palmitate reveals time-dependent changes in insulin secretion and lipid metabolism.

Author

Kirsten Roomp, Hjalti Kristinsson, Domitille Schvartz, Kumari Ubhayasekera, Ernest Sargsyan, Levon Manukyan, Azazul Chowdhury, Hannes Manell, Venkata Satagopam, Karlfried Groebe, Reinhard Schneider, Jonas Bergquist, Jean-Charles Sanchez, and Peter Bergsten

Subjects

Medicine, Science

Abstract

Studies on the pathophysiology of type 2 diabetes mellitus (T2DM) have linked the accumulation of lipid metabolites to the development of beta-cell dysfunction and impaired insulin secretion. In most in vitro models of T2DM, rodent islets or beta-cell lines are used and typically focus is on specific cellular pathways or organs. Our aim was to, firstly, develop a combined lipidomics and proteomics approach for lipotoxicity in isolated human islets and, secondly, investigate if the approach could delineate novel and/ or confirm reported mechanisms of lipotoxicity. To this end isolated human pancreatic islets, exposed to chronically elevated palmitate concentrations for 0, 2 and 7 days, were functionally characterized and their levels of multiple targeted lipid and untargeted protein species determined. Glucose-stimulated insulin secretion from the islets increased on day 2 and decreased on day 7. At day 7 islet insulin content decreased and the proinsulin to insulin content ratio doubled. Amounts of cholesterol, stearic acid, C16 dihydroceramide and C24:1 sphingomyelin, obtained from the lipidomic screen, increased time-dependently in the palmitate-exposed islets. The proteomic screen identified matching changes in proteins involved in lipid biosynthesis indicating up-regulated cholesterol and lipid biosynthesis in the islets. Furthermore, proteins associated with immature secretory granules were decreased when palmitate exposure time was increased despite their high affinity for cholesterol. Proteins associated with mature secretory granules remained unchanged. Pathway analysis based on the protein and lipid expression profiles implicated autocrine effects of insulin in lipotoxicity. Taken together the study demonstrates that combining different omics approaches has potential in mapping of multiple simultaneous cellular events. However, it also shows that challenges exist for effectively combining lipidomics and proteomics in primary cells. Our findings provide insight into how saturated fatty acids contribute to islet cell dysfunction by affecting the granule maturation process and confirmation in human islets of some previous findings from rodent islet and cell-line studies.

Published

2017

3. Magnetic resonance imaging cooling-reheating protocol indicates decreased fat fraction via lipid consumption in suspected brown adipose tissue.

Author

Elin Lundström, Robin Strand, Lars Johansson, Peter Bergsten, Håkan Ahlström, and Joel Kullberg

Subjects

Medicine, Science

Abstract

To evaluate whether a water-fat magnetic resonance imaging (MRI) cooling-reheating protocol could be used to detect changes in lipid content and perfusion in the main human brown adipose tissue (BAT) depot after a three-hour long mild cold exposure.Nine volunteers were investigated with chemical-shift-encoded water-fat MRI at baseline, after a three-hour long cold exposure and after subsequent short reheating. Changes in fat fraction (FF) and R2*, related to ambient temperature, were quantified within cervical-supraclavicular adipose tissue (considered as suspected BAT, denoted sBAT) after semi-automatic segmentation. In addition, FF and R2* were quantified fully automatically in subcutaneous adipose tissue (not considered as suspected BAT, denoted SAT) for comparison. By assuming different time scales for the regulation of lipid turnover and perfusion in BAT, the changes were determined as resulting from either altered absolute fat content (lipid-related) or altered absolute water content (perfusion-related).sBAT-FF decreased after cold exposure (mean change in percentage points = -1.94 pp, P = 0.021) whereas no change was observed in SAT-FF (mean = 0.23 pp, P = 0.314). sBAT-R2* tended to increase (mean = 0.65 s-1, P = 0.051) and SAT-R2* increased (mean = 0.40 s-1, P = 0.038) after cold exposure. sBAT-FF remained decreased after reheating (mean = -1.92 pp, P = 0.008, compared to baseline) whereas SAT-FF decreased (mean = -0.79 pp, P = 0.008, compared to after cold exposure).The sustained low sBAT-FF after reheating suggests lipid consumption, rather than altered perfusion, as the main cause to the decreased sBAT-FF. The results obtained demonstrate the use of the cooling-reheating protocol for detecting changes in the cervical-supraclavicular fat depot, being the main human brown adipose tissue depot, in terms of lipid content and perfusion.

Published

2015

4. Combined lipidomic and proteomic analysis of isolated human islets exposed to palmitate reveals time-dependent changes in insulin secretion and lipid metabolism

Author

Venkata P. Satagopam, Hjalti Kristinsson, Domitille Schvartz, Ernest Sargsyan, Peter Bergsten, Kumari Ubhayasekera, Reinhard Schneider, Levon Manukyan, Kirsten Roomp, Jean-Charles Sanchez, Hannes Manell, Azazul Islam Chowdhury, Karlfried Groebe, and Jonas Bergquist

Subjects

Male, Proteomics, 0301 basic medicine, Time Factors, endocrine system diseases, Physiology, medicine.medical_treatment, Palmitates, Gene Expression Regulation/drug effects, lcsh:Medicine, Biochemistry, Lipid Metabolism/drug effects, Islets of Langerhans/drug effects/metabolism/secretion, Database and Informatics Methods, Endocrinology, 0302 clinical medicine, Insulin Secretion, Medicine and Health Sciences, Macromolecular Structure Analysis, Insulin, Glucose/metabolism, lcsh:Science, Proinsulin, Lipid Analysis, Multidisciplinary, geography.geographical_feature_category, Proteomic Databases, Organic Compounds, Fatty Acids, Monosaccharides, Middle Aged, Islet, Lipids, Chemistry, Cholesterol, medicine.anatomical_structure, Lipotoxicity, Physical Sciences, Endokrinologi och diabetes, Female, Palmitates/pharmacology, Research Article, medicine.medical_specialty, Carbohydrates, 030209 endocrinology & metabolism, Endocrinology and Diabetes, Biology, Research and Analysis Methods, Islets of Langerhans, 03 medical and health sciences, Internal medicine, Lipid biosynthesis, Lipidomics, medicine, Humans, ddc:576, Molecular Biology, Diabetic Endocrinology, Insulin/secretion, geography, Endocrine Physiology, Pancreatic islets, Organic Chemistry, lcsh:R, Chemical Compounds, Biology and Life Sciences, Lipid metabolism, Proinsulin/metabolism, Lipid Metabolism, Diabetes Mellitus, Type 2/metabolism, Hormones, Glucose, Biological Databases, 030104 developmental biology, Diabetes Mellitus, Type 2, Gene Expression Regulation, lcsh:Q

Abstract

Studies on the pathophysiology of type 2 diabetes mellitus (T2DM) have linked the accumulation of lipid metabolites to the development of beta-cell dysfunction and impaired insulin secretion. In most in vitro models of T2DM, rodent islets or beta-cell lines are used and typically focus is on specific cellular pathways or organs. Our aim was to, firstly, develop a combined lipidomics and proteomics approach for lipotoxicity in isolated human islets and, secondly, investigate if the approach could delineate novel and/ or confirm reported mechanisms of lipotoxicity. To this end isolated human pancreatic islets, exposed to chronically elevated palmitate concentrations for 0, 2 and 7 days, were functionally characterized and their levels of multiple targeted lipid and untargeted protein species determined. Glucose-stimulated insulin secretion from the islets increased on day 2 and decreased on day 7. At day 7 islet insulin content decreased and the proinsulin to insulin content ratio doubled. Amounts of cholesterol, stearic acid, C16 dihydroceramide and C24:1 sphingomyelin, obtained from the lipidomic screen, increased time-dependently in the palmitate-exposed islets. The proteomic screen identified matching changes in proteins involved in lipid biosynthesis indicating up-regulated cholesterol and lipid biosynthesis in the islets. Furthermore, proteins associated with immature secretory granules were decreased when palmitate exposure time was increased despite their high affinity for cholesterol. Proteins associated with mature secretory granules remained unchanged. Pathway analysis based on the protein and lipid expression profiles implicated autocrine effects of insulin in lipotoxicity. Taken together the study demonstrates that combining different omics approaches has potential in mapping of multiple simultaneous cellular events. However, it also shows that challenges exist for effectively combining lipidomics and proteomics in primary cells. Our findings provide insight into how saturated fatty acids contribute to islet cell dysfunction by affecting the granule maturation process and confirmation in human islets of some previous findings from rodent islet and cell-line studies.

Published

2017

5. Magnetic Resonance Imaging Cooling-Reheating Protocol Indicates Decreased Fat Fraction via Lipid Consumption in Suspected Brown Adipose Tissue

Author

Lars Johansson, Håkan Ahlström, Joel Kullberg, Elin Lundström, Peter Bergsten, and Robin Strand

Subjects

Adult, Male, Hot Temperature, Subcutaneous Fat, lcsh:Medicine, Adipose tissue, Fats, Young Adult, Adipose Tissue, Brown, Brown adipose tissue, medicine, Humans, lcsh:Science, Fat fraction, Multidisciplinary, medicine.diagnostic_test, business.industry, lcsh:R, Water, Lipid metabolism, Magnetic resonance imaging, Lipid Metabolism, Magnetic Resonance Imaging, Cold Temperature, medicine.anatomical_structure, Positron emission tomography, Lipid content, lcsh:Q, Female, business, Nuclear medicine, Perfusion, Research Article

Abstract

Objectives To evaluate whether a water-fat magnetic resonance imaging (MRI) cooling-reheating protocol could be used to detect changes in lipid content and perfusion in the main human brown adipose tissue (BAT) depot after a three-hour long mild cold exposure. Materials and Methods Nine volunteers were investigated with chemical-shift-encoded water-fat MRI at baseline, after a three-hour long cold exposure and after subsequent short reheating. Changes in fat fraction (FF) and R2*, related to ambient temperature, were quantified within cervical-supraclavicular adipose tissue (considered as suspected BAT, denoted sBAT) after semi-automatic segmentation. In addition, FF and R2* were quantified fully automatically in subcutaneous adipose tissue (not considered as suspected BAT, denoted SAT) for comparison. By assuming different time scales for the regulation of lipid turnover and perfusion in BAT, the changes were determined as resulting from either altered absolute fat content (lipid-related) or altered absolute water content (perfusion-related). Results sBAT-FF decreased after cold exposure (mean change in percentage points = -1.94 pp, P = 0.021) whereas no change was observed in SAT-FF (mean = 0.23 pp, P = 0.314). sBAT-R2* tended to increase (mean = 0.65 s-1, P = 0.051) and SAT-R2* increased (mean = 0.40 s-1, P = 0.038) after cold exposure. sBAT-FF remained decreased after reheating (mean = -1.92 pp, P = 0.008, compared to baseline) whereas SAT-FF decreased (mean = -0.79 pp, P = 0.008, compared to after cold exposure). Conclusions The sustained low sBAT-FF after reheating suggests lipid consumption, rather than altered perfusion, as the main cause to the decreased sBAT-FF. The results obtained demonstrate the use of the cooling-reheating protocol for detecting changes in the cervical-supraclavicular fat depot, being the main human brown adipose tissue depot, in terms of lipid content and perfusion.

Published

2015