This cohort consisted predominantly of oligoarticular JIA and RF-

This cohort consisted predominantly of oligoarticular JIA and RF-negative polyarticular JIA. Genome-wide association analysis was performed and novel associations were established at 3q13 within C3orf1 and near rs4688011 regions. A new locus at 10q21 near rs647989 region was reported to be associated with JIA. However, the investigators did not analyse LDE225 the two subtypes (i.e., oligoarticular JIA and RF-negative polyarticular JIA) separately, probably due to lack of sufficient sample size. Behrens et al.[7] and Hinks et al.[8] reported an association of TRAF1/C5 and VTCN1 with JIA by genome wide association studies. However, these studies lacked power and no

replication studies were performed. Jarvis et al.[9] performed gene expression profiling in patients with polyarticular JIA and found that neutrophils play a central role in the pathogenesis of this subtype. However, the sample size was too small to make generalizations. That immunobiologic differences exist among the various subtypes of JIA was shown

by Barnes et al.[10] who studied the gene expression profiles in the peripheral blood of patients with JIA. The authors identified 9501 differentially expressed probe sets among JIA subtypes and controls. In persistent oligoarthritis, RF-negative polyarthritis and systemic JIA subtypes, upregulation of genes associated with interleukin (IL)-10 signalling was prominent. Upregulation of innate immune system pathways, including IL-6 were noted in SoJIA and influence of Janus kinase/signal PLX4032 in vivo transducers and activators of transcription (JAK/STAT), IL-2 and other signalling pathways were noted in persistent oligoarthritis. SoJIA is characterised by systemic signs, a pathognomonic evanescent rash and arthritis which may be polyarticular or oligoarticular, but is almost never monoarticular. Newer insights into the pathogenesis of this disorder suggest that SoJIA, should in fact no longer be classified as a subtype of JIA, but rather

be considered as an diglyceride independent autoinflammatory (rather than an autoimmune) disorder. This change in understanding comes from the discovery of cytokines involved in the pathogenesis of SoJIA.[11] IL-1 and IL-6 are closely linked to the etiopathogenesis of this disorder, in contrast to TNF-α which appears to be primarily involved in the pathogenesis of polyarticular and oligoarticular JIA.[1, 3, 4, 11] The results of these studies have significantly impacted the clinical management of patients with SoJIA. IL-1 blockade has been shown to be effective in suppressing the cytokine storm, characteristically seen in this subtype of JIA. The recently published ANAJIS (anakinra in patients of systemic onset JIA) trial conclusively demonstrated the clinical efficacy of anakinra in SoJIA in a multicentric setting.[12] It was shown that use of anakinra normalized the blood gene expression profiles.

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