Abstract
Mechanisms governing entry and exit of immune cells into and out of inflamed joints remain poorly understood. We sought herein to identify the key molecular pathways regulating such migration. Using murine models of inflammation in conjunction with mice expressing a photoconvertible fluorescent protein, we characterized the migration of cells from joints to draining lymph nodes and performed RNA-Seq analysis on isolated cells, identifying genes associated with migration and retention. We further refined the gene list to those specific for joint inflammation. RNA-Seq data revealed pathways and genes previously highlighted as characteristic of rheumatoid arthritis in patient studies, validating the methodology. Focusing on pathways associated with cell migration, adhesion, and movement, we identified genes involved in the retention of immune cells in the inflamed joint, namely junctional adhesion molecule A (JAM-A), and identified a role for such molecules in T cell differentiation in vivo. Thus, using a combination of cell-tracking approaches and murine models of inflammatory arthritis, we identified genes, pathways, and anatomically specific tissue signatures regulating cell migration in a variety of inflamed sites. This skin- and joint-specific data set will be an invaluable resource for the identification of therapeutic targets for arthritis and other inflammatory disorders.
Highlights
Rheumatoid arthritis (RA) is a chronic autoimmune disease that is characterised by joint and synovial swelling and the infiltration and accumulation of inflammatory cells in the normally sparsely populated joint space
We have previously demonstrated in a murine model of breach of self-tolerance that T cells can be observed interacting with DC in the inflamed joint in a fashion that is consistent with the cognate interactions routinely observed in lymph nodes (LN) during antigen presentation [5]
Cells that are subsequently retained in the joint are identifiable as Kaede red while any Kaede red cells present in the popliteal LNs (pLN) are known to have migrated from the photoconverted joint
Summary
Rheumatoid arthritis (RA) is a chronic autoimmune disease that is characterised by joint and synovial swelling and the infiltration and accumulation of inflammatory cells in the normally sparsely populated joint space (reviewed in McInnes and Schett [1]) This cellular accumulation in the inflamed joint can occur through increased recruitment, survival and/or proliferation of cells in the articular environment. The direct cause of this breach of self-tolerance is unknown but involves a number of environmental/lifestyle risk factors and genome-wide association studies have identified polymorphisms in genes related to T cell activation as risk factors (i.e., HLA-DR4 and PTPN22) Following this breach of tolerance, inflammatory cells, including T cells, neutrophils and macrophages are recruited to the joints (articular phase). Pharmacological inhibition of the sphingosine-1-phosphate (S1P) pathway has been shown to prevent lymphocyte egress from LN [6, 7], but to to inhibit DC migration from joints to LN [8, 9]
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