UNIPROT:P01889 - FACTA Search

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Query: UNIPROT:P01889 (ankylosing spondylitis)
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The in vitro study of TNF promoter polymorphism (SNP) function was stimulated by the numerous case-control (association) studies of the polymorphisms in relation to human disease and the appearance of several studies claiming to show a functional role for these SNPs provided a further impetus to researchers interested in the role of TNF in their disease of interest. In this review we consider case-control studies, concentrating on the autoimmune and inflammatory diseases rheumatoid arthritis, multiple sclerosis, ankylosing spondylitis, and asthma, and on infectious diseases including malaria, hepatitis B and C infection, leprosy and sepsis/septic shock. We also review the available evidence on the functional role of the various TNF promoter polymorphisms. In general, case-control studies have produced mixed results, with little consensus in most cases on whether any TNF polymorphisms are actually associated with disease, although results have been more consistent in the case of infectious diseases, particularly malaria. Functional studies have also produced mixed results but recent work suggests that the much studied -308G/A polymorphism is not functional, while the function of other TNF polymorphisms remains controversial. Studies of the TNF region are increasingly using extended haplotypes that can better capture the variation of the MHC region.
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PMID:Is there a future for TNF promoter polymorphisms? 1497 48

Recent breakthroughs in genetic methodology have greatly augmented our understanding of the contribution of genetics to susceptibility to the rheumatic diseases. Disorders in which familial aggregation has been best documented include rheumatoid arthritis (RA), ankylosing spondylitis (AS), systemic lupus erythematosus (SLE), and systemic sclerosis (SSc). Much of the genetic contribution to these diseases lies in the MHC, including HLA-DR4 (RA), HLA-B27 (AS), HLA-DRB1*0301, DRB1*1501/*1503, DRB1*08, and C4 null alleles (SLE), and HLA-DRB1*11 and DRB1*1502 (SSc). Genome-wide scans have provided inconsistent data in RA, although consistent regions have been observed in scans from different groups in AS and SLE. No consistent non-MHC candidate gene has been identified in RA. There is active investigation in AS in this area. In SLE the Fc gamma RIIa and Fc gamma IIIa genes have been most thoroughly described, and in SSc fibrillin and SPARC. Newer techniques being developed presently, such as high density single nucleotide polymorphism genome-wide scanning, show promise to bring these analyses to the next level, which will hopefully result not only in better screening of individuals at highest risk, but also in novel treatments.
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PMID:Genetic studies in the rheumatic diseases: present status and implications for the future. 1566 Apr 56

Autoimmune spondylitis was induced in BALB/c mice and their MHC-matched (BALB/c x DBA/2)F1 and F2 hybrids by systemic immunization with cartilage/intervertebral disk proteoglycan (PG). As in human ankylosing spondylitis, the MHC was the major permissive genetic locus in murine PG-induced spondylitis (PGIS). Two major non-MHC chromosome loci with highly significant linkage were found on chromosomes 2 (Pgis2) and 18 (Pgis1) accounting for 40% of the entire F2 trait variance. The dominant spondylitis-susceptibility allele for Pgis2 locus is derived from the BALB/c strain, whereas the Pgis1 recessive allele was present in the disease-resistant DBA/2 strain. The Pgis1 locus significantly affected the disease-controlling Pgis2 locus, inducing as high incidence of spondylitis in F2 hybrids as was found in the spondylitis-susceptible parent BALB/c strain. Additional disease-controlling loci with suggestive linkage were mapped to the chromosomes 12, 15, and 19. Severity of spondylitis in F2 mice positively correlated with serum levels of amyloid A, IL-6, and Pg-specific Abs, and showed negative correlation with Ag-induced T cell proliferation, IFN-gamma, IL-4, and TNF-alpha production. A major locus controlling serum IL-6 was found on chromosome 14 near osteoclast differentiation factor Tnfsf11. Locus on chromosome 11 near the Stat3 and Stat5 genes controlled serum level of the Ig IgG2a isotype. The two major genetic loci Pgis1 and Pgis2 of murine spondylitis were homologous to chromosome regions in human genome, which control ankylosing spondylitis in human patients. Thus, this animal model of experimentally induced spondylitis might facilitate the identification of spondylitis-susceptibility genes in humans.
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PMID:Two major interacting chromosome loci control disease susceptibility in murine model of spondyloarthropathy. 1608 19

Antibodies specific for glucose-6-phosphate isomerase (G6PI) from T-cell receptor transgenic K/BxN mice are known to induce arthritis in mice, and immunization of DBA/1 mice with G6PI led to acute arthritis without permanent deformation of their joints. Because rheumatoid arthritis is a chronic disease, we set out to identify the capacity of G6PI to induce chronic arthritis in mice. Immunization with recombinant human G6PI induced a chronically active arthritis in mice with a C3H genomic background, whereas the DBA/1 background allowed only acute arthritis and the C57BL/10 background permitted no or very mild arthritis. The disease was associated with the major histocompatibility region sharing an allelic association similar to that of collagen-induced arthritis (i.e. q > p > r). All strains developed a strong antibody response to G6PI that correlated only in the C3H.NB strain with arthritis severity. Similarly, a weak response to type II collagen in a few mice was observed, which was associated with arthritis in C3H.NB mice. Mice on the C3H background also developed ankylosing spondylitis in the vertebrae of the tail. Both C3H.Q and B10.Q mice deficient for B cells were resistant to arthritis. We conclude that G6PI has the ability to induce a chronic arthritis, which is MHC associated and B-cell dependent. Thus, there are striking similarities between this and the collagen-induced arthritis model.
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PMID:Induction of a B-cell-dependent chronic arthritis with glucose-6-phosphate isomerase. 1627 85

MHC class I molecules are predominantly involved in the presentation of antigens from viral proteins to CD8+ T cells of the immune system. However, MHC proteins can also be linked to autoimmune diseases, and the HLA-B27 allele is expressed by 95% of people with the rheumatic condition ankylosing spondylitis (AS). A precise molecular explanation for the association between HLA-B27 and AS is still lacking, although it is known that inappropriately disulfide bonded HLA-B27 heavy chains can be found at both the cell surface and in the endoplasmic reticulum (ER) of HLA-B27 expressing cells. This papers shows that HLA-B27 heavy chain misfolding does not depend on any unpaired cysteine residue per se when HLA-B27 is highly expressed. Also shown is that major differences exist in the disulfide-dependent conformations of two HLA-B27 subtypes, HLA-B2704 and HLA-B2705. The results imply that residues 77, 152, and/or 211 influence the redox potential of the MHC class I heavy chain and suggest that manipulating the redox environment can alter the conformational state of HLA-B27 subtypes.
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PMID:Differential oxidation of HLA-B2704 and HLA-B2705 in lymphoblastoid and transfected adherent cells. 1667 75

The nucleotide-binding domain, leucine-rich repeat containing family (NLR) network has provided pivotal genetic and molecular insights into diseases that were hitherto regarded as autoimmune. The NLR-related disorders include rare monogenic autoinflammatory diseases collectively termed cryopyrin-associated periodic syndromes, Crohn's disease which is a common polygenic disease and also an association at the mechanistic level with gout and pseudogout. Unlike the classical autoimmune diseases where disease immunopathogenesis is played out primarily in the primary and secondary lymphoid organs, the immunopathogenesis of the NLR-related disorders is played out in the tissues where inflammation arises. As the genetic mutations or molecular cascades associated with the NLR-related disorders have a widespread cellular distribution, it has been somewhat enigmatic why these disorders attack certain territories, but not others. This implies that tissue-specific factors in the target organs themselves contribute to disease expression. Such examples include the high abundance of NOD2 expressing cells in the part of the gut most typically afflicted by Crohn's disease and the preferential deposition of crystals in the joints to where inflammation localises in gout and pseudogout. The NLR network is associated principally with increases in TNF or IL-1 production, both of which are key players in innate immunity. Therefore, the NLR network identifies at the genetic and molecular level a robust paradigm for innate immune activation against self. This tissue-specific-factor-associated inflammation is the diametric opposite of classical autoimmunity. Of note, the MHC class-I-associated diseases including psoriasis (HLA-Cw6) and ankylosing spondylitis (HLA-B27) show striking clinical overlaps with Crohn's disease and also some rare monogenic diseases. Thus, the NLR innate immune pathway allows the full spectrum of inflammation against self to be viewed along an immunological disease continuum with autoantibody-associated disease at one end, innate immune diseases at the other and MHC class-1-related disorders as an intermediate.
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PMID:The NLR network and the immunological disease continuum of adaptive and innate immune-mediated inflammation against self. 1780 42

To investigate the effects of TNF-alpha -308, -238 promoter polymorphisms on TNF-alpha transcription in B27 positive Chinese patients with ankylosing spondylitis (AS). The possible relationship between polymorphisms, MHC antigens, and quantitative TNF-alpha mRNA expression were evaluated. Single nucleotide polymorphisms (SNPS) of TNF-alpha -308 and -238 were performed by PCR-amplification refractory mutation system method (PCR-ARMS) in sixty-seven B27-positive AS patients and 60 HLA-B27 positive healthy controls in Chinese. Quantitative measurement of TNF-alpha mRNA in peripheral blood mononuclear cells was performed with real time RT-PCR. The polymorphisms were correlated to quantitative TNF-alpha mRNA, and MHC antigens (determined by SSP method) in AS patients. The prevalence rate of both -308G/A and -238G/A TNF-alpha promoter polymorphisms in patients were not significantly different from those in normal subjects. However, a significant high LPS-stimulated TNF-alpha mRNA expression was found in peripheral blood mononuclear cells from patients with promoter -308G/A polymorphism (TNF2) as compared to those in -308G/G genotype (TNF1). Furthermore, -308G/A polymorphism in patients was found to be tightly associated with distinct haplotypes of A33/B58/Cw10 [12 out of 14 -308G/A patients (85.7%) versus none in 53 -308G/G patients], independent of B27 antigen. HLA-A33-B58-Cw10 haplotypes associated TNF-alpha promoter -308G/A polymorphism might play an important role in disease pathogenesis of AS in Chinese population, partially related to a driving force of a higher TNF-alpha production. It confirms once again the importance and complexity of MHC related molecules in disease pathogenesis of AS.
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PMID:Higher LPS-stimulated TNF-alpha mRNA levels in peripheral blood mononuclear cells from Chinese ankylosing spondylitis patients with -308G/A polymorphism in promoter region of tumor necrosis factor: association with distinct A33/B58/Cw10 haplotypes. 1871 20

Spondylarthropathies revolve around the strongest known contributing factor, HLA-B27. However, the role of HLA-B27 remains unclear. Its subtypes are reported here in the particular context of developing countries. Non-MHC factors are also being described. The role of immunity is being elucidated. Cytokine expression has been proved to play a major role in ankylosing spondylitis (AS). Recently shown are IL23R, which encodes a critical cytokine receptor in the TH17 subset of T cells, and ARTS1, loss of function of which could have pro-inflammatory effects. This constitutes a major breakthrough in the understanding of AS which could potentially lead to a therapy. New imaging techniques and therapies have substantially improved the earlier diagnosis and management of the disease. However, criteria for an early diagnosis remain to be settled. Such criteria are particularly important for developing countries where they could help in decreasing the socioeconomic burden of the disease.
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PMID:Ankylosing spondylitis and reactive arthritis in the developing world. 1878 46

Recent studies published on the genetic basis of ankylosing spondylitis (AS) reflect novel areas of investigation and extension of recent advances. As HLA-B27 subtypes have been extensively examined in other ethnic groups, novel insights into the relevance of HLA-B27 folding to disease susceptibility have led to questions regarding the influence of HLA-B27 on AS pathogenesis. The recent identification of IL23R, ERAP1, and interleukin-1 (IL1A) region genes in AS pathogenesis has led to a number of replication studies. Other genes with inconsistent AS associations (eg, KIR, TLR4, ANKH, and TNAP) have been further examined with inconsistent results. Potential candidate genes (TIRAP, COL1A6, and MEFV) have been examined with no associations found. Tremendous progress has been made with respect to understanding the genetic basis of AS. The identification of new genes-ARTS1, IL23R, and IL1A-substantiate that susceptibility to AS is also determined by genes outside the MHC.
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PMID:Recent studies on the genetic basis of ankylosing spondylitis. 1977 29

To identify susceptibility loci for ankylosing spondylitis, we undertook a genome-wide association study in 2,053 unrelated ankylosing spondylitis cases among people of European descent and 5,140 ethnically matched controls, with replication in an independent cohort of 898 ankylosing spondylitis cases and 1,518 controls. Cases were genotyped with Illumina HumHap370 genotyping chips. In addition to strong association with the major histocompatibility complex (MHC; P < 10(-800)), we found association with SNPs in two gene deserts at 2p15 (rs10865331; combined P = 1.9 x 10(-19)) and 21q22 (rs2242944; P = 8.3 x 10(-20)), as well as in the genes ANTXR2 (rs4333130; P = 9.3 x 10(-8)) and IL1R2 (rs2310173; P = 4.8 x 10(-7)). We also replicated previously reported associations at IL23R (rs11209026; P = 9.1 x 10(-14)) and ERAP1 (rs27434; P = 5.3 x 10(-12)). This study reports four genetic loci associated with ankylosing spondylitis risk and identifies a major role for the interleukin (IL)-23 and IL-1 cytokine pathways in disease susceptibility.
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PMID:Genome-wide association study of ankylosing spondylitis identifies non-MHC susceptibility loci. 2006 62

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