Abstract
The guanine nucleotide exchange factor cytohesin-2 (ARNO) is a major activator of the small GTPase ARF6 that has been shown to play an important role(s) in cell adhesion, migration and cytoskeleton reorganization in various cell types and models of disease. Interestingly, dysregulated cell migration, in tandem with hyper-inflammatory responses, is one of the hallmarks associated with activated synovial fibroblasts (SFs) during chronic inflammatory joint diseases, like rheumatoid arthritis. The role of ARNO in this process has previously been unexplored but we hypothesized that the pro-inflammatory milieu of inflamed joints locally induces activation of ARNO-mediated pathways in SFs, promoting an invasive cell phenotype that ultimately leads to bone and cartilage damage. Thus, we used small interference RNA to investigate the impact of ARNO on the pathological migration and inflammatory responses of murine SFs, revealing a fully functional ARNO-ARF6 pathway which can be rapidly activated by IL-1β. Such signalling promotes cell migration and formation of focal adhesions. Unexpectedly, ARNO was also shown to modulate SF-inflammatory responses, dictating their precise cytokine and chemokine expression profile. Our results uncover a novel role for ARNO in SF-dependent inflammation, that potentially links pathogenic migration with initiation of local joint inflammation, offering new approaches for targeting the fibroblast compartment in chronic arthritis and joint disease.
Highlights
Fibroblasts are stromal cells of mesenchymal origin that, in addition to their well-described structural roles, are essential for maintaining tissue homeostasis, as they orchestrate local immunity and inflammation, promote wound healing and control matrix remodeling [1]
We report that ARF nucleotide-binding site opener (ARNO) expression regulates two branches of synovial fibroblasts (SFs)-dependent pathophysiology: migration and cytokine secretion
This is the first time that ARNO has been linked to synovial fibroblast biology, where we describe it as a regulator of cytoskeleton reorganization and cell migration, and as a key player in adjusting local inflammatory responses
Summary
Fibroblasts are stromal cells of mesenchymal origin that, in addition to their well-described structural roles, are essential for maintaining tissue homeostasis, as they orchestrate local immunity and inflammation, promote wound healing and control matrix remodeling [1]. The characterisation of functional heterogeneity provided by single-cell RNA-Sequencing (RNASeq) has allowed a rapid advance in the understanding of the pathophysiology of SFs in RA [1, 10,11,12], the mechanisms that underpin SFs migration and invasiveness are still unclear. This could be because Generation Sequencing (NGS) does not consider the influence of the extracellular matrix and/or posttranslational regulatory mechanisms governing cell signalling, the impact of which on cell function would not be detected by transcriptomic approaches alone
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