Your search keyword '"Olav Mella"' showing total 3 results

1. Fine mapping of the major histocompatibility complex (MHC) in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) suggests involvement of both HLA class I and class II loci

Author

Asgeir Lande, Anne Rydland, Marte K. Viken, Riad Hajdarevic, Ola Didrik Saugstad, Ingrid Gurvin Rekeland, Benedicte A. Lie, Elin Bolle Strand, Torstein Egeland, Lisa E. Creary, Øystein Fluge, Daysi Duarte Sosa, and Olav Mella

Subjects

Genetics, Canada, Linkage disequilibrium, Fatigue Syndrome, Chronic, Valine-tRNA Ligase, Endocrine and Autonomic Systems, Immunology, Peptide binding, Single-nucleotide polymorphism, Human leukocyte antigen, Biology, Major histocompatibility complex, Major Histocompatibility Complex, Behavioral Neuroscience, HLA Antigens, HLA-DQ Antigens, biology.protein, Humans, SNP, Alleles, HLA Complex, Genetic association

Abstract

This is an open access article under the CC BY license. The etiology of myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) is unknown, but involvement of the immune system is one of the proposed underlying mechanisms. Human leukocyte antigen (HLA) associations are hallmarks of immune-mediated and autoimmune diseases. We have previously performed high resolution HLA genotyping and detected associations between ME/CFS and certain HLA class I and class II alleles. However, the HLA complex harbors numerous genes of immunological importance, and there is extensive and complex linkage disequilibrium across the region. In the current study, we aimed to fine map the association signals in the HLA complex by genotyping five additional classical HLA loci and 5,342 SNPs in 427 Norwegian ME/CFS patients, diagnosed according to the Canadian Consensus Criteria, and 480 healthy Norwegian controls. SNP association analysis revealed two distinct and independent association signals (p ≤ 0.001) tagged by rs4711249 in the HLA class I region and rs9275582 in the HLA class II region. Furthermore, the primary association signal in the HLA class II region was located within the HLA-DQ gene region, most likely due to HLA-DQB1, particularly the amino acid position 57 (aspartic acid/alanine) in the peptide binding groove, or an intergenic SNP upstream of HLA-DQB1. In the HLA class I region, the putative causal locus might map outside the classical HLA genes as the association signal spans several genes (DDR1, GTF2H4, VARS2, SFTA2 and DPCR1) with expression levels influenced by the ME/CFS associated SNP genotype. Taken together, our results implicate the involvement of the MHC, and in particular the HLA-DQB1 gene, in ME/CFS. These findings should be replicated in larger cohorts, particularly to verify the putative involvement of HLA-DQB1, a gene important for antigen-presentation to T cells and known to harbor alleles providing the largest risk for well–established autoimmune diseases.

Published

2021

2. Genetic association study in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) identifies several potential risk loci

Author

Riad Hajdarevic, Asgeir Lande, Jesper Mehlsen, Anne Rydland, Daisy D. Sosa, Elin B. Strand, Olav Mella, Flemming Pociot, Øystein Fluge, Benedicte A. Lie, and Marte K. Viken

Subjects

Cohort Studies, Behavioral Neuroscience, Fatigue Syndrome, Chronic, Endocrine and Autonomic Systems, immunochip, Immunology, GWAS, Humans, Self Report, ME/CFS, Polymorphism, Single Nucleotide, Genome-Wide Association Study

Abstract

This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a disease of unknown etiology and pathogenesis, which manifests in a variety of symptoms like post-exertional malaise, brain fog, fatigue and pain. Hereditability is suggested by an increased disease risk in relatives, however, genome-wide association studies in ME/CFS have been limited by small sample sizes and broad diagnostic criteria, therefore no established risk loci exist to date. In this study, we have analyzed three ME/CFS cohorts: a Norwegian discovery cohort (N = 427), a Danish replication cohort (N = 460) and a replication dataset from the UK biobank (N = 2105). To the best of our knowledge, this is the first ME/CFS genome-wide association study of this magnitude incorporating 2532 patients for the genome-wide analyses and 460 patients for a targeted analysis. Even so, we did not find any ME/ CFS risk loci displaying genome-wide significance. In the Norwegian discovery cohort, the TPPP gene region showed the most significant association (rs115523291, P = 8.5 × 10− 7 ), but we could not replicate the top SNP. However, several other SNPs in the TPPP gene identified in the Norwegian discovery cohort showed modest association signals in the self-reported UK biobank CFS cohort, which was also present in the combined analysis of the Norwegian and UK biobank cohorts, TPPP (rs139264145; P = 0.00004). Interestingly, TPPP is expressed in brain tissues, hence it will be interesting to see whether this association, with time, will be verified in even larger cohorts. Taken together our study, despite being the largest to date, could not establish any ME/CFS risk loci, but comprises data for future studies to accumulate the power needed to reach genome-wide significance.

Published

2021

3. Antibodies to β adrenergic and muscarinic cholinergic receptors in patients with Chronic Fatigue Syndrome

Author

Petra Reinke, Olav Mella, Madlen Loebel, Patricia Grabowski, Hans-Dieter Volk, Carmen Scheibenbogen, Kirsten Wittke, Øystein Fluge, Sandra Bauer, Leif G. Hanitsch, Christian Meisel, and Harald Heidecke

Subjects

0301 basic medicine, Adult, Male, Chronic Fatigue Syndrome, medicine.medical_specialty, Immunology, Cholinergic Agents, Adrenergic, Cohort Studies, 03 medical and health sciences, Behavioral Neuroscience, Norepinephrine, 0302 clinical medicine, Adrenergic Agents, GPCR, Internal medicine, Muscarinic acetylcholine receptor, Receptors, Adrenergic, beta, Medicine, Humans, Receptor, Adrenergic Agent, Acetylcholine receptor, Autoantibodies, B-Lymphocytes, Fatigue Syndrome, Chronic, business.industry, Endocrine and Autonomic Systems, Receptors, Muscarinic, 030104 developmental biology, Endocrinology, Case-Control Studies, Immunoglobulin G, Cholinergic, Female, business, Endothelin receptor, Rituximab, 030217 neurology & neurosurgery, Acetylcholine, medicine.drug

Abstract

Infection-triggered disease onset, chronic immune activation and autonomic dysregulation in CFS point to an autoimmune disease directed against neurotransmitter receptors. Autoantibodies against G-protein coupled receptors were shown to play a pathogenic role in several autoimmune diseases. Here, serum samples from a patient cohort from Berlin (n=268) and from Bergen with pre- and post-treatment samples from 25 patients treated within the KTS-2 rituximab trial were analysed for IgG against human α and β adrenergic, muscarinic (M) 1–5 acetylcholine, dopamine, serotonin, angiotensin, and endothelin receptors by ELISA and compared to a healthy control cohort (n=108). Antibodies against β2, M3 and M4 receptors were significantly elevated in CFS patients compared to controls. In contrast, levels of antibodies against α adrenergic, dopamine, serotonin, angiotensin, and endothelin receptors were not different between patients and controls. A high correlation was found between levels of autoantibodies and elevated IgG1–3 subclasses, but not with IgG4. Further patients with high β2 antibodies had significantly more frequently activated HLA-DR+ T cells and more frequently thyreoperoxidase and anti-nuclear antibodies. In patients receiving rituximab maintenance treatment achieving prolonged B-cell depletion, elevated β2 and M4 receptor autoantibodies significantly declined in clinical responder, but not in non-responder. We provide evidence that 29.5% of patients with CFS had elevated antibodies against one or more M acetylcholine and β adrenergic receptors which are potential biomarkers for response to B-cell depleting therapy. The association of autoantibodies with immune markers suggests that they activate B and T cells expressing β adrenergic and M acetylcholine receptors. Dysregulation of acetylcholine and adrenergic signalling could also explain various clinical symptoms of CFS.