Ectopic Nociceptor Sprouting as a Key Peripheral Driver of Pain in Rheumatoid Arthritis.

Purpose Of Review: Pain is one of the most debilitating sequelae of rheumatoid arthritis. Established and emerging therapies offer effective disease control for many patients, though they often have underwhelming efficacy for pain relief. The uncoupling of pain intensity from disease activity and inflammation presents an ongoing challenge in both our understanding of the pathophysiology and our ability to treat joint pain. The generation of high-parameter, unbiased -omic data sets generated from patient-derived tissues is changing how we think about rheumatoid arthritis pain. In this review, we discuss the peripheral drivers of pain in rheumatoid arthritis-affected joints and their innervating primary afferents. We evaluate how human molecular immunology and neuroscience approaches are helping us unravel the heterogeneity of pain in rheumatoid arthritis and propose future directions to clarify how pain is maintained in the absence of inflammation.

Recent Findings: Synovial fibroblasts have emerged as key pronociceptive drivers within the rheumatic joint. Further to the classical proinflammatory mediators known to drive pain, such as cytokines and prostaglandins, bone morphogenetic proteins, ephrin signaling, and netrins appear to be upregulated in both rheumatoid arthritis-affected synovium and the innervating sensory neurons. Resulting adaptations to innervating primary afferents such as synaptogenesis and neurite outgrowth may occur in a sensory neuron subtype-specific manner causing pain that is disproportionate to inflammation. Nociceptor sprouting in the joint may explain why pain tends to persist despite adequate disease control. Future mechanistic work exploring the conditions under which these nociceptors sprout into the joint will provide new therapeutic avenues for ensuring that pain resolves alongside the inflammation associated with rheumatoid arthritis.