Abstract
BackgroundThe p53 isoform Delta 133p53 beta is known to be associated with cancers driven by inflammation. Many of the features associated with the development of inflammation in rheumatoid arthritis (RA) parallel those evident in cancer progression. However, the role of this isoform in RA has not yet been explored. The aim of this study was to determine whether Delta 133p53 beta is driving aggressive disease in RA.MethodsUsing RA patient synovia, we carried out RT-qPCR and RNAScope-ISH to determine both protein and mRNA levels of Delta 133p53 and p53. We also used IHC to determine the location and type of cells with elevated levels of Delta 133p53 beta. Plasma cytokines were also measured using a BioPlex cytokine panel and data analysed by the Milliplex Analyst software.ResultsElevated levels of pro-inflammatory plasma cytokines were associated with synovia from RA patients displaying extensive tissue inflammation, increased immune cell infiltration and the highest levels of Delta 133TP53 and TP53 beta mRNA. Located in perivascular regions of synovial sub-lining and surrounding ectopic lymphoid structures (ELS) were a subset of cells with high levels of CD90, a marker of 'activated fibroblasts' together with elevated levels of Delta 133p53 beta.ConclusionsInduction of Delta 133p53 beta in CD90(+) synovial fibroblasts leads to an increase in cytokine and chemokine expression and the recruitment of proinflammatory cells into the synovial joint, creating a persistently inflamed environment. Our results show that dysregulated expression of Delta 133p53 beta could represent one of the early triggers in the immunopathogenesis of RA and actively perpetuates chronic synovial inflammation. Therefore, Delta 133p53 beta could be used as a biomarker to identify RA patients more likely to develop aggressive disease who might benefit from targeted therapy to cytokines such as IL-6.