Abstract
Although the inflammatory response is essential for protecting tissues from injury and infection1, unrestrained inflammation can cause chronic inflammatory diseases such as arthritis, colitis and asthma. Physiological mechanisms that downregulate inflammation are poorly understood. Potent control might be achieved by regulating early stages in the inflammatory response, such as accumulation of neutrophils at the site of injury, where these cells release chemical mediators that promote inflammatory processes including plasma extravasation2, bacteriocide and proteolysis. To access an inflammatory site, neutrophils must first adhere to the vascular endothelium in a process mediated in part by the leukocyte adhesion molecule L-selectin3. This adhesion is prevented when L-selectin is shed from the neutrophil membrane4,5. Although shedding of L-selectin is recognized as a potentially important mechanism for regulating neutrophils4,5,6,7, its physiological function has not been demonstrated. Shedding of L-selectin may mediate endogenous downregulation of inflammation by limiting neutrophil accumulation at inflammatory sites. Here we show that activation of nociceptive neurons induces shedding of L-selectin from circulating neutrophils in vivo and that this shedding suppresses an ongoing inflammatory response by inhibiting neutrophil accumulation. These findings indicate a previously unknown mechanism for endogenous feedback control of inflammation. Failure of this mechanism could contribute to the etiology of chronic inflammatory disease.
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This work was supported by NIH-AM32624.
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Strausbaugh, H., Green, P., Lo, E. et al. Painful stimulation suppresses joint inflammation by inducing shedding of L-selectin from neutrophils. Nat Med 5, 1057–1061 (1999). https://doi.org/10.1038/12497
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DOI: https://doi.org/10.1038/12497
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