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Spinal interleukin‐1β induces mechanical spinal hyperexcitability in rats: Interactions and redundancies with TNF and IL‐6

Christian König, Enrique Vázquez, Sabrina Eß, Matthias Ebbinghaus, Björn Vorpahl, Andrea Ebersberger, Hans‐Georg Schaible

2021Journal of Neurochemistry17 citationsDOIOpen Access PDF

Abstract

Both spinal tumor necrosis factor (TNF) and interleukin-6 (IL-6) contribute to the development of "mechanical" spinal hyperexcitability in inflammatory pain states. Recently, we found that spinal sensitization by TNF was significantly reduced by blockade of spinal IL-6 signaling suggesting that IL-6 signaling is involved in spinal TNF effects. Here, we explored whether spinal interleukin-1β (IL-1β), also implicated in inflammatory pain, induces "mechanical" spinal hyperexcitability, and whether spinal IL-1β effects are related to TNF and IL-6 effects. We recorded the responses of spinal cord neurons to mechanical stimulation of the knee joint in vivo and used cellular approaches on microglial and astroglial cell lines to identify interactions of IL-1β, TNF, and IL-6. Spinal application of IL-1β in anesthetized rats modestly enhanced responses of spinal cord neurons to innocuous and noxious mechanical joint stimulation. This effect was blocked by minocycline indicating microglia involvement, and significantly attenuated by interfering with IL-6 signaling. In the BV2 microglial cell line, IL-1β, like TNF, enhanced the release of soluble IL-6 receptor, necessary for spinal IL-6 actions. Different to TNF, IL-1β caused SNB-19 astrocytes to release interleukin-11. The generation of "mechanical" spinal hyperexcitability by IL-1β was more pronounced upon spinal TNF neutralization with etanercept, suggesting that concomitant TNF limits IL-1β effects. In BV2 cells, TNF stimulated the release of IL-1Ra, an endogenous IL-1β antagonist. Thus, spinal IL-1β has the potential to induce spinal hyperexcitability sharing with TNF dependency on IL-6 signaling, but TNF also limited IL-1β effects explaining the modest effect of IL-1β.

Topics & Concepts

MicrogliaSpinal cordTumor necrosis factor alphaNeuroscienceMedicineStimulationInterleukinInflammationCytokineImmunologyEndocrinologyBiologyPain Mechanisms and TreatmentsFibromyalgia and Chronic Fatigue Syndrome ResearchExercise and Physiological Responses
Spinal interleukin‐1β induces mechanical spinal hyperexcitability in rats: Interactions and redundancies with TNF and IL‐6 | Litcius