Abstract
Rheumatoid arthritis (RA) is considered to be, in many respects, an archetypal autoimmune disease that causes activation of pro-inflammatory pathways resulting in joint and systemic inflammation. RA remains a major clinical problem with the development of several new therapies targeted at cytokine inhibition in recent years. In RA, biologic therapies targeted at inhibition of tumor necrosis factor alpha (TNFα) have been shown to reduce joint inflammation, limit erosive change, reduce disability and improve quality of life. The cytokine TNFα has a central role in systemic RA inflammation and has also been shown to have pro-inflammatory effects in the brain. Emerging data suggests there is an important bidirectional communication between the brain and immune system in inflammatory conditions like RA. Recent work has shown how TNF inhibitor therapy in people with RA is protective for Alzheimer's disease. Functional MRI studies to measure brain activation in people with RA to stimulus by finger joint compression, have also shown that those who responded to TNF inhibition showed a significantly greater activation volume in thalamic, limbic, and associative areas of the brain than non-responders. Infections are the main risk of therapies with biologic drugs and infections have been shown to be related to disease flares in RA. Recent basic science data has also emerged suggesting that bacterial components including lipopolysaccharide induce pain by directly activating sensory neurons that modulate inflammation, a previously unsuspected role for the nervous system in host-pathogen interactions. In this review, we discuss the current evidence for neuro-inflammation as an important factor that impacts on disease persistence and pain in RA.
Highlights
Rheumatic diseases include some of the most common chronic disorders worldwide
A quantitative T2 weighted imaging (T2w) Magnetic resonance imaging (MRI) study showed no significant difference in white matter (WM) lesion load between rheumatoid arthritis (RA) patients and controls (Bekkelund et al, 1995) WM lesions in RA patients have been associated with higher levels of the protein S100B, a potential plasma marker of blood brain barrier (BBB) disruption and neurodegenerative effects (Hamed et al, 2012)
Animal models have recently demonstrated that infectious agents including LPS can directly activate the immune system stimulate pain responses
Summary
Rheumatic diseases include some of the most common chronic disorders worldwide. Of these, rheumatoid arthritis (RA) is considered to be, in many respects, an archetypal autoimmune disease (Feldmann and Maini, 2010). Neuropsychiatric symptoms have shown improvement with cytokine blockade, for example IL-1 inhibition in Sjögrens and diabetes mellitus reduced fatigue (Norheim et al, 2012) Within “pure” neuroinflammatory disorders such as Alzheimer’s there is increasing murine data to show an improvement in memory and reduced hippocampal TNFα levels as a result of anti-TNFα receptor fusion protein administration (Detrait et al, 2014) This has lead to a move toward considering anti-TNFα as a therapy for Alzheimer’s dementia (Cheng et al, 2014) Auanofin, a gold—containing medication and established treatment for RA, dampens inflammation through manipulation of the antiand pro-inflammatory interleukin balance. There are reports of both increased and decreased gray matter structure volumes in patients with chronic www.frontiersin.org
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