Your search keyword '"Marten H. Hofker"' showing total 259 results

251. An anonymous single copy chromosome 22 clone, D22S10 (22c1-18) identifies an RFLP with PstI

Author

G.J.B. van Ommen, Peter L. Pearson, Martijn H. Breuning, Egbert Bakker, and Marten H. Hofker

Subjects

clone (Java method), Genetics, Polymorphism, Genetic, Chromosome Mapping, DNA Restriction Enzymes, Biology, Single copy, Molecular biology, PstI, Chromosomes, Human, 21-22 and Y, biology.protein, Humans, Restriction fragment length polymorphism, Chromosome 22

Published

1985

252. Chemokine-like receptor 1 deficiency does not affect the development of insulin resistance and nonalcoholic fatty liver disease in mice.

Author

Nanda Gruben, Marcela Aparicio Vergara, Niels J Kloosterhuis, Henk van der Molen, Stefan Stoelwinder, Sameh Youssef, Alain de Bruin, Dianne J Delsing, Jan Albert Kuivenhoven, Bart van de Sluis, Marten H Hofker, and Debby P Y Koonen

Subjects

Medicine, Science

Abstract

The adipokine chemerin and its receptor, chemokine-like receptor 1 (Cmklr1), are associated with insulin resistance and nonalcoholic fatty liver disease (NAFLD), which covers a broad spectrum of liver diseases, ranging from simple steatosis to nonalcoholic steatohepatitis (NASH). It is possible that chemerin and/or Cmklr1 exert their effects on these disorders through inflammation, but so far the data have been controversial. To gain further insight into this matter, we studied the effect of whole-body Cmklr1 deficiency on insulin resistance and NAFLD. In view of the primary role of macrophages in hepatic inflammation, we also transplanted bone marrow from Cmklr1 knock-out (Cmklr1-/-) mice and wild type (WT) mice into low-density lipoprotein receptor knock-out (Ldlr-/-) mice, a mouse model for NASH. All mice were fed a high fat, high cholesterol diet containing 21% fat from milk butter and 0.2% cholesterol for 12 weeks. Insulin resistance was assessed by an oral glucose tolerance test, an insulin tolerance test, and by measurement of plasma glucose and insulin levels. Liver pathology was determined by measuring hepatic inflammation, fibrosis, lipid accumulation and the NAFLD activity score (NAS). Whole-body Cmklr1 deficiency did not affect body weight gain or food intake. In addition, we observed no differences between WT and Cmklr1-/- mice for hepatic inflammatory and fibrotic gene expression, immune cell infiltration, lipid accumulation or NAS. In line with this, we detected no differences in insulin resistance. In concordance with whole-body Cmklr1 deficiency, the absence of Cmklr1 in bone marrow-derived cells in Ldlr-/- mice did not affect their insulin resistance or liver pathology. Our results indicate that Cmklr1 is not involved in the pathogenesis of insulin resistance or NAFLD. Thus, we recommend that the associations reported between Cmklr1 and insulin resistance or NAFLD should be interpreted with caution.

Published

2014

253. The Copper Metabolism MURR1 domain protein 1 (COMMD1) modulates the aggregation of misfolded protein species in a client-specific manner.

Author

Willianne I M Vonk, Vaishali Kakkar, Paulina Bartuzi, Dick Jaarsma, Ruud Berger, Marten H Hofker, Leo W J Klomp, Cisca Wijmenga, Harm H Kampinga, and Bart van de Sluis

Subjects

Medicine, Science

Abstract

The Copper Metabolism MURR1 domain protein 1 (COMMD1) is a protein involved in multiple cellular pathways, including copper homeostasis, NF-κB and hypoxia signalling. Acting as a scaffold protein, COMMD1 mediates the levels, stability and proteolysis of its substrates (e.g. the copper-transporters ATP7B and ATP7A, RELA and HIF-1α). Recently, we established an interaction between the Cu/Zn superoxide dismutase 1 (SOD1) and COMMD1, resulting in a decreased maturation and activation of SOD1. Mutations in SOD1, associated with the progressive neurodegenerative disorder Amyotrophic Lateral Sclerosis (ALS), cause misfolding and aggregation of the mutant SOD1 (mSOD1) protein. Here, we identify COMMD1 as a novel regulator of misfolded protein aggregation as it enhances the formation of mSOD1 aggregates upon binding. Interestingly, COMMD1 co-localizes to the sites of mSOD1 inclusions and forms high molecular weight complexes in the presence of mSOD1. The effect of COMMD1 on protein aggregation is client-specific as, in contrast to mSOD1, COMMD1 decreases the abundance of mutant Parkin inclusions, associated with Parkinson's disease. Aggregation of a polyglutamine-expanded Huntingtin, causative of Huntington's disease, appears unaltered by COMMD1. Altogether, this study offers new research directions to expand our current knowledge on the mechanisms underlying aggregation disease pathologies.

Published

2014

254. Macrophage specific caspase-1/11 deficiency protects against cholesterol crystallization and hepatic inflammation in hyperlipidemic mice.

Author

Tim Hendrikx, Veerle Bieghs, Sofie M A Walenbergh, Patrick J van Gorp, Fons Verheyen, Mike L J Jeurissen, Mandy M F Steinbusch, Nathalie Vaes, Christoph J Binder, Ger H Koek, Rinke Stienstra, Mihai G Netea, Marten H Hofker, and Ronit Shiri-Sverdlov

Subjects

Medicine, Science

Abstract

While non-alcoholic steatohepatitis (NASH) is characterized by hepatic steatosis combined with inflammation, the mechanisms triggering hepatic inflammation are unknown. In Ldlr(-/-) mice, we have previously shown that lysosomal cholesterol accumulation in Kupffer cells (KCs) correlates with hepatic inflammation and cholesterol crystallization. Previously, cholesterol crystals have been shown to induce the activation of inflammasomes. Inflammasomes are protein complexes that induce the processing and release of pro-inflammatory cytokines IL-1b and IL-18 via caspase-1 activation. Whereas caspase-1 activation is independent of caspase-11 in the canonical pathway of inflammasome activation, caspase-11 was found to trigger caspase-1-dependent IL-1b and IL-18 in response to non-canonical inflammasome activators. So far, it has not been investigated whether inflammasome activation stimulates the formation of cholesterol crystals. We hypothesized that inflammasome activation in KCs stimulates cholesterol crystallization, thereby leading to hepatic inflammation.Ldlr (-/-) mice were transplanted (tp) with wild-type (Wt) or caspase-1/11(-/-) (dKO) bone marrow and fed either regular chow or a high-fat, high-cholesterol (HFC) diet for 12 weeks. In vitro, bone marrow derived macrophages (BMDM) from wt or caspase-1/11(-/-) mice were incubated with oxLDL for 24h and autophagy was assessed.In line with our hypothesis, caspase-1/11(-/-)-tp mice had less severe hepatic inflammation than Wt-tp animals, as evident from liver histology and gene expression analysis in isolated KCs. Mechanistically, KCs from caspase-1/11(-/-)-tp mice showed less cholesterol crystals, enhanced cholesterol efflux and increased autophagy. In wt BMDM, oxLDL incubation led to disturbed autophagy activity whereas BMDM from caspase-1/11(-/-) mice had normal autophagy activity.Altogether, these data suggest a vicious cycle whereby disturbed autophagy and decreased cholesterol efflux leads to newly formed cholesterol crystals and thereby maintain hepatic inflammation during NASH by further activating the inflammasome.

Published

2013

255. Neutrophil-derived myeloperoxidase aggravates non-alcoholic steatohepatitis in low-density lipoprotein receptor-deficient mice.

Author

Sander S Rensen, Veerle Bieghs, Sofia Xanthoulea, Evi Arfianti, Jaap A Bakker, Ronit Shiri-Sverdlov, Marten H Hofker, Jan Willem Greve, and Wim A Buurman

Subjects

Medicine, Science

Abstract

BACKGROUND: Chronic inflammation and oxidative stress play fundamental roles in the pathogenesis of non-alcoholic steatohepatitis (NASH). Previously, we reported that myeloperoxidase (MPO), an aggressive oxidant-generating neutrophil enzyme, is associated with NASH severity in man. We now investigated the hypothesis that MPO contributes to the development and progression of NASH. METHODOLOGY: Low-density lipoprotein receptor-deficient mice with an MPO-deficient hematopoietic system (LDLR(-/-/)MPO(-/-tp) mice) were generated and compared with LDLR(-/-/)MPO(+/+tp) mice after induction of NASH by high-fat feeding. RESULTS: High-fat feeding caused a ~4-fold induction of liver MPO in LDLR(-/-/)MPO(+/+) mice which was associated with hepatic sequestration of MPO-positive neutrophils and high levels of nitrotyrosine, a marker of MPO activity. Importantly, LDLR(-/-/)MPO(-/-tp) mice displayed markedly reduced hepatic neutrophil and T-lymphocyte infiltration (p

Published

2012

256. Internalization of modified lipids by CD36 and SR-A leads to hepatic inflammation and lysosomal cholesterol storage in Kupffer cells.

Author

Veerle Bieghs, Fons Verheyen, Patrick J van Gorp, Tim Hendrikx, Kristiaan Wouters, Dieter Lütjohann, Marion J J Gijbels, Maria Febbraio, Christoph J Binder, Marten H Hofker, and Ronit Shiri-Sverdlov

Subjects

Medicine, Science

Abstract

Non-alcoholic steatohepatitis (NASH) is characterized by steatosis and inflammation, which can further progress into fibrosis and cirrhosis. Recently, we demonstrated that combined deletion of the two main scavenger receptors, CD36 and macrophage scavenger receptor 1 (MSR1), which are important for modified cholesterol-rich lipoprotein uptake, reduced NASH. The individual contributions of these receptors to NASH and the intracellular mechanisms by which they contribute to inflammation have not been established. We hypothesize that CD36 and MSR1 contribute independently to the onset of inflammation in NASH, by affecting intracellular cholesterol distribution inside Kupffer cells (KCs).Ldlr(-/-) mice were transplanted with wild-type (Wt), Cd36(-/-) or Msr1(-/-) bone marrow and fed a Western diet for 3 months. Cd36(-/-)- and Msr1(-/-)- transplanted (tp) mice showed a similar reduction in hepatic inflammation compared to Wt-tp mice. While the total amount of cholesterol inside KCs was similar in all groups, KCs of Cd36(-/-)- and Msr1(-/-)-tp mice showed increased cytoplasmic cholesterol accumulation, while Wt-tp mice showed increased lysosomal cholesterol accumulation.CD36 and MSR1 contribute similarly and independently to the progression of inflammation in NASH. One possible explanation for the inflammatory response related to expression of these receptors could be abnormal cholesterol trafficking in KCs. These data provide a new basis for prevention and treatment of NASH.

Published

2012

257. Unraveling the regulatory mechanisms underlying tissue-dependent genetic variation of gene expression.

Author

Jingyuan Fu, Marcel G M Wolfs, Patrick Deelen, Harm-Jan Westra, Rudolf S N Fehrmann, Gerard J Te Meerman, Wim A Buurman, Sander S M Rensen, Harry J M Groen, Rinse K Weersma, Leonard H van den Berg, Jan Veldink, Roel A Ophoff, Harold Snieder, David van Heel, Ritsert C Jansen, Marten H Hofker, Cisca Wijmenga, and Lude Franke

Subjects

Genetics, QH426-470

Abstract

It is known that genetic variants can affect gene expression, but it is not yet completely clear through what mechanisms genetic variation mediate this expression. We therefore compared the cis-effect of single nucleotide polymorphisms (SNPs) on gene expression between blood samples from 1,240 human subjects and four primary non-blood tissues (liver, subcutaneous, and visceral adipose tissue and skeletal muscle) from 85 subjects. We characterized four different mechanisms for 2,072 probes that show tissue-dependent genetic regulation between blood and non-blood tissues: on average 33.2% only showed cis-regulation in non-blood tissues; 14.5% of the eQTL probes were regulated by different, independent SNPs depending on the tissue of investigation. 47.9% showed a different effect size although they were regulated by the same SNPs. Surprisingly, we observed that 4.4% were regulated by the same SNP but with opposite allelic direction. We show here that SNPs that are located in transcriptional regulatory elements are enriched for tissue-dependent regulation, including SNPs at 3' and 5' untranslated regions (P = 1.84×10(-5) and 4.7×10(-4), respectively) and SNPs that are synonymous-coding (P = 9.9×10(-4)). SNPs that are associated with complex traits more often exert a tissue-dependent effect on gene expression (P = 2.6×10(-10)). Our study yields new insights into the genetic basis of tissue-dependent expression and suggests that complex trait associated genetic variants have even more complex regulatory effects than previously anticipated.

Published

2012

258. Trans-eQTLs reveal that independent genetic variants associated with a complex phenotype converge on intermediate genes, with a major role for the HLA.

Author

Rudolf S N Fehrmann, Ritsert C Jansen, Jan H Veldink, Harm-Jan Westra, Danny Arends, Marc Jan Bonder, Jingyuan Fu, Patrick Deelen, Harry J M Groen, Asia Smolonska, Rinse K Weersma, Robert M W Hofstra, Wim A Buurman, Sander Rensen, Marcel G M Wolfs, Mathieu Platteel, Alexandra Zhernakova, Clara C Elbers, Eleanora M Festen, Gosia Trynka, Marten H Hofker, Christiaan G J Saris, Roel A Ophoff, Leonard H van den Berg, David A van Heel, Cisca Wijmenga, Gerard J Te Meerman, and Lude Franke

Subjects

Genetics, QH426-470

Abstract

For many complex traits, genetic variants have been found associated. However, it is still mostly unclear through which downstream mechanism these variants cause these phenotypes. Knowledge of these intermediate steps is crucial to understand pathogenesis, while also providing leads for potential pharmacological intervention. Here we relied upon natural human genetic variation to identify effects of these variants on trans-gene expression (expression quantitative trait locus mapping, eQTL) in whole peripheral blood from 1,469 unrelated individuals. We looked at 1,167 published trait- or disease-associated SNPs and observed trans-eQTL effects on 113 different genes, of which we replicated 46 in monocytes of 1,490 different individuals and 18 in a smaller dataset that comprised subcutaneous adipose, visceral adipose, liver tissue, and muscle tissue. HLA single-nucleotide polymorphisms (SNPs) were 10-fold enriched for trans-eQTLs: 48% of the trans-acting SNPs map within the HLA, including ulcerative colitis susceptibility variants that affect plausible candidate genes AOAH and TRBV18 in trans. We identified 18 pairs of unlinked SNPs associated with the same phenotype and affecting expression of the same trans-gene (21 times more than expected, P

Published

2011

259. Polymorphisms of the TUB gene are associated with body composition and eating behavior in middle-aged women.

Author

Jana V van Vliet-Ostaptchouk, N Charlotte Onland-Moret, Ronit Shiri-Sverdlov, Patrick J J van Gorp, Anne Custers, Petra H M Peeters, Cisca Wijmenga, Marten H Hofker, and Yvonne T van der Schouw

Subjects

Medicine, Science

Abstract

BACKGROUND: The TUB gene, encoding an evolutionary conserved protein, is highly expressed in the hypothalamus and might act as a transcription factor. Mutations in TUB cause late-onset obesity, insulin-resistance and neurosensory deficits in mice. An association of common variants in the TUB gene with body weight in humans has been reported. METHODS/FINDINGS: The aim was to investigate the relationship of single nucleotide polymorphisms (SNPs) of the TUB gene (rs2272382, rs2272383 and rs1528133) with both anthropometry and self-reported macronutrient intake from a validated food frequency questionnaire. These associations were studied in a population-based, cross-sectional study of 1680 middle-aged Dutch women, using linear regression analysis. The minor allele C of the rs1528133 SNP was significantly associated with increased weight (+1.88 kg, P = 0.022) and BMI (+0.56 units, P = 0.05). Compared with non-carriers, both AG heterozygotes and AA homozygotes of the rs2272382 SNP derived less energy from fat (AG: -0.55+/-0.28%, P = 0.05, AA: -0.95+/-0.48%, P = 0.047). However, both genotypes were associated with an increased energy intake from carbohydrates (0.69+/-0.33%, P = 0.04 and 1.68+/-0.56%, P = 0.003, respectively), mainly because of a higher consumption of mono- and disaccharides. Both these SNPs, rs2272382 and rs1528133, were also associated with a higher glycemic load in the diet. The glycemic load was higher among those with AG and AA genotypes for the variant rs2272382 than among the wild types (+1.49 (95% CI: -0.27-3.24) and +3.89 (95% CI: 0.94-6.85) units, respectively). Carriers of the minor allele C of rs1528133 were associated with an increased glycemic load of 1.85 units compared with non-carriers. CONCLUSIONS: Genetic variation of the TUB gene was associated with both body composition and macronutrient intake, suggesting that TUB might influence eating behavior.

Published

2008