Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0003864 (arthritis)
69,039 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Spondyloarthropathies are a cluster of interrelated and overlapping chronic inflammatory rheumatic diseases that primarily include ankylosing spondylitis, reactive arthritis, and the arthritis associated with psoriasis and inflammatory bowel diseases. The primary pathologic sites are the entheses (the sites of bony insertion of ligaments and tendons); the axial skeleton, including the sacroiliac joints; the limb joints; and some nonarticular structures, such as the gut, skin, eye, and aortic valve. Although spondyloarthropathies are not associated with rheumatoid factor, they show a strong association with HLA-B27; however, this association varies markedly among various spondyloarthropathies and among ethnic groups. The most widely used classification criterion, from the European Spondyloarthropathy Study Group, encompasses the currently recognized wider disease spectrum, with a sensitivity and specificity that generally exceed 85%. Spondyloarthropathies occur in genetically predisposed persons and are triggered by environmental factors, but the cellular and molecular mechanisms of inflammation are not yet fully understood. Chlamydial and many enterobacterial infections can trigger reactive arthritis, but an infectious trigger for ankylosing spondylitis has not yet been established. HLA-B27 itself is involved in enhancing genetic susceptibility, but the underlying molecular basis is still unknown; additional genes include the putative susceptibility genes for Crohn disease, ulcerative colitis, and psoriasis. A specific susceptibility gene for Crohn disease, NOD2, is located on chromosome 16q12, and one of the candidate genes for psoriasis, PSORS1, has been mapped to a 60-kb fragment on chromosome 6p, which is telomeric to the HLA-C locus. This paper reviews the efficacy of anti-tumor necrosis factor-alpha therapy and other therapeutic advances.
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PMID:Update on spondyloarthropathies. 1206 64

The gut flora is a vast interior ecosystem whose nature is only beginning to be unravelled, due to the emergence of sophisticated molecular tools. Techniques such as 16S ribosomal RNA analysis, polymerase chain reaction amplification and the use of DNA microarrays now facilitate rapid identification and characterization of species resistant to conventional culture and possibly unknown species. Life-long cross-talk between the host and the gut flora determines whether health is maintained or disease intervenes. An understanding of these bacteria-bacteria and bacteria-host immune and epithelial cell interactions is likely to lead to a greater insight into disease pathogenesis. Studies of single organism-epithelial interactions have revealed the large range of metabolic processes that gut bacteria may influence. In inflammatory bowel diseases, bacteria drive the inflammatory process, and genetic predisposition to disease identified to date, such as the recently described NOD2/CARD15 gene variants, may relate to altered bacterial recognition. Extra-intestinal disorders, such as atopy and arthritis, may also have an altered gut milieu as their basis. Clinical evidence is emerging that the modification of this internal environment, using either antibiotics or probiotic bacteria, is beneficial in preventing and treating disease. This natural and apparently safe approach holds great appeal.
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PMID:The role of the gut flora in health and disease, and its modification as therapy. 1218 39

Our rapidly expanding understanding of the genetics of inflammatory bowel disease (IBD) has led to important clinical applications. It is becoming apparent that genes help determine the clinical phenotype, intestinal and extraintestinal complications, response to treatment, and drug toxicities in these disorders. For example, NOD2/CARD15 mutations are associated with ileal Crohn's disease, possibly with a fibrosing/obstructing phenotype, but do not influence responses to infliximab treatment. Similarly, certain human leukocyte antigen (HLA) haplotypes are associated with aggressive, extensive ulcerative colitis and strongly influence extraintestinal manifestations of IBD, including uveitis and various forms of arthritis. Expression of the glucocorticoid receptor b determines the clinical response to corticosteroids, whereas genetically regulated levels of enzymes metabolizing 6-mercaptopurine/azathioprine may determine clinical responses and toxicities to these important immunosuppressive agents. Once we have a more sophisticated understanding of the mechanisms of genetic defects in IBD, it may be feasible to restore physiologic function to prevent the onset of disease in susceptible individuals. However, because we do not have the ability to prevent disease at the present time, it is premature to screen offspring and first-degree relatives of IBD patients for the NOD2/CARD15 genotype. One can anticipate that it will become feasible to prospectively determine a patient's genotype and to individualize a drug regimen, leading to highly effective, safe treatments for IBD patients on a rational, rather than empiric, basis.
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PMID:Clinical applications of advances in the genetics of IBD. 1268 84

Psoriasis is associated with arthritis in approximately 10% of patients. The skin disease and arthritis have a strong but complex genetic component. Several susceptibility loci have been reported including one major locus that maps very close to the human leukocyte antigen-C gene on chromosome 6p. No causative gene has so far been conclusively identified. A recent genetic analysis that only included patients with psoriatic arthritis revealed a highly significant susceptibility locus on chromosome 16q approximately 20 cM from the NOD2 gene that has been associated with Crohn's disease. This locus was barely detectable when the entire cohort of psoriasis patients was analyzed as a homogeneous entity. A further clinical stratification of psoriasis patients has revealed novel strongly suggestive loci and also increased the logarithm of the odds scores of some previously reported loci. It is concluded that a careful documentation of clinical features and phenotypic stratification may help to analyze complex genetic disorders.
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PMID:Psoriasis: a complex clinical and genetic disorder. 1525 Oct 84

Patients with sporadic early-onset granulomatous arthritis are clinically identical to Blau syndrome, but without the family history. Blau syndrome is an autosomal dominant inherited disease and is known to be caused by mutations in the CARD15 gene (also called NOD2). We investigated the hypothesis that an individual with sporadic early onset granulomatous arthritis may have a Blau syndrome mutation in CARD15/NOD2. Our patient's genomic DNA isolated from a buccal swab sample was subjected to amplification to include the region of exon 4 from the CARD15/NOD2 gene that contains known mutations that cause Blau syndrome. This region was screened for mutations by direct DNA sequencing in both directions. One of the mutations in CARD15/NOD2 attributed to Blau syndrome was found in the DNA sample. The nucleotide change encodes an amino acid substitution from arginine to tryptophan at position 334 of the protein. This mutation has been found in some Blau syndrome pedigrees reported in the literature. These data suggest that sporadic granulomatous arthritis may in fact be the sporadic form of Blau syndrome, but arising from a spontaneous neomutation. This would explain the profound clinical identity and the lack of disease history in the parents.
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PMID:Blau syndrome mutation of CARD15/NOD2 in sporadic early onset granulomatous arthritis. 1569 2

The caspase recruitment domain gene CARD15/NOD2, encoding a cellular receptor involved in an NF-kappaB-mediated pathway of innate immunity, was first identified as a major susceptibility gene for Crohn's disease (CD), and more recently, as responsible for Blau syndrome (BS), a rare autosomal-dominant trait characterized by arthritis, uveitis, skin rash and granulomatous inflammation. While CARD15 variants associated with CD are located within or near the C-terminal leucine-rich repeat domain and cause decreased NF-kappaB activation, BS mutations affect the central nucleotide-binding NACHT domain and result in increased NF-kappaB activation. In an Italian family with BS, we detected a novel mutation E383K, whose pathogenicity is strongly supported by cosegregation with the disease in the family and absence in controls, and by the evolutionary conservation and structural role of the affected glutamate close to the Walker B motif of the nucleotide-binding site in the NACHT domain. Interestingly, substitutions at corresponding positions in another NACHT family member cause similar autoinflammatory phenotypes.
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PMID:A new CARD15 mutation in Blau syndrome. 1581 65

Blau syndrome (BS) is a rare familial granulomatous disease manifested by uveitis, arthritis and skin rash. BS has recently been found to be associated with a distinctive mutation in NOD2, which encodes an intracellular toll-like receptor. We have compared host cell interaction with bacterial challenge in U937 cells expressing wild type human NOD2 (NOD2(wt)), mutant NOD2 (NOD2(Blau)), or a vector control (VC). The cells were incubated with Salmonella typhimurium. Intracellular uptake was assessed by harvesting the cells at different time points following invasion and quantitating the CFU, recovered after gentamicin treatment to kill extracellular organisms. Expression of TNF-alpha, TLR2 and TLR4 was determined by semi-quantitative RT-PCR under resting conditions and after stimulation by bacteria. Invasion of target cells with S. typhimurium was diminished in the presence of NOD2(Blau). Expression of TNF-alpha mRNA was enhanced following bacterial invasion in all cell lines but NOD2(Blau) was associated with a more rapid decline in TNF-alpha expression. Kinetics of intracellular clearance of bacteria indicated a relative defect in NOD2(Blau) compared to controls. This clearance defect may be related to the lack of sustained TNF-alpha seen in the early stages. These events were not related to differential TLR2 or TLR4 expression since there were no significant differences seen between the cell lines after bacterial stimulation. Our findings indicate that the NOD2 mutation associated with this syndrome alters host:microbial interaction, and this may have relevance to triggering factors in the ocular and joint inflammation seen in BS.
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PMID:Altered host:pathogen interactions conferred by the Blau syndrome mutation of NOD2. 1709 91

Inflammasomes are large, multimeric protein complexes that link the sensing of microbial products and metabolic stress to the proteolytic processing of prointerleukin (pro-IL)-1beta to its active form. NALP1 and NALP2 are founding members of the Nod-like receptor family. Other Nod-like receptors, including NALP3 and NOD2, which are associated with inflammatory disorders, have also been described. The NALP1 and NALP3 inflammasomes are located in the cytoplasm and can, therefore, detect intracellular infection through recognition of microbial pathogen-associated molecular patterns. The inflammasome pathways cooperate with Toll-like receptor pathways to mediate a rapid and appropriate response to pathogens and genotoxic stress. Mutations in both pyrin and NALP3 components of inflammasomes are associated with innate-immune-mediated diseases (familial Mediterranean fever and the 'cryopyrinopathies'), and aberrant IL-1beta processing has been reported in several autoinflammatory conditions, including Muckle-Wells syndrome, chronic infantile neurologic, cutaneous and articular syndrome/neonatal onset multisystem inflammatory disease, and gout. The effectiveness of IL-1beta blockade in treating many of these conditions has transformed the understanding and management of these disorders and also highlighted the role of aberrant IL-1beta signaling in other conditions, such as adult-onset Still's disease and systemic juvenile idiopathic arthritis.
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PMID:Primer: inflammasomes and interleukin 1beta in inflammatory disorders. 1817 47

Blau syndrome (BS) is a rare familial disease transmitted as an autosomal dominant trait, characterized by arthritis, uveitis, skin rash and granulomatous inflammation. Until now BS has been observed in 136 persons belonging to 28 families as well as in 4 sporadic cases. The gene responsible for BS has recently been identified in the nucleotide-binding domain (NBD) of caspase recruitment domain (CARD15/NOD2), also involved in the pathogenesis of Crohn's disease. In addition to three missense mutations (R334Q, R334W and L469F) previously identified, a new CARD 15 mutation (E383K) has recently been described in a family followed by us for the past 25 years. The characteristics of this family which, to our knowledge, is the only one affected with BS in Italy, are the object of this manuscript. Both the proband and her daughter were originally affected with a papulonodular skin eruption and then with mild arthritis of the hands and feet. The proband, but not the daughter, complained of severe chronic bilateral uveitis, followed by glaucoma and, a few years later, by cataracts. Histological examination of skin biopsies from both subjects and a joint biopsy (daughter only), showed non-caseating granulomas with multinucleated giant cells which, at electron microscopy, revealed "comma-shaped bodies" in epithelioid cells, thought to be a marker for BS. The disease is presently well controlled with low doses of prednisone for the mother and non-steroidal anti-inflammatory drugs (NSAIDs) plus low doses of prednisone, when necessary, for the daughter. As in Crohn's disease, CARD15/NOD2 mutation is believed to be responsible for the granulomatous autoinflammatory reactions probably triggered by microorganisms in BS.
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PMID:Clinical and genetic aspects of Blau syndrome: a 25-year follow-up of one family and a literature review. 1871 60

NOD2 is an intracellular microbial sensor of the innate immune system that can act as a potent activator and regulator of inflammation. Mutations in the gene encoding NOD2 in humans have been associated with Crohn's disease (CD), Blau syndrome (BS), and early onset sarcoidosis (EOS). These diseases have in common features of dysregulated inflammation, but have very distinct phenotypes, which have been hypothesized to result from either loss-of-function (CD) or gain-of-function (BS/EOS) mutations. Here we describe an infant with early onset sarcoidosis who presented with systemic inflammation and disseminated granulomatous disease, including the triad of granulomatous arthritis, uveitis and dermatitis, as well as unusual gastrointestinal tract granulomas. The patient had a susceptibility polymorphism of NOD2 previously described in CD, but not in BS or EOS. We discuss the complex role of NOD2 in innate immunity to microbes and the clinical consequences of disturbances in this system.
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PMID:NOD2-associated diseases: Bridging innate immunity and autoinflammation. 1946 19


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