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<p>Abstract</p> <p>Background</p> <p>Inflammation-mediated hyperalgesia involves tissue acidosis and sensitization of nociceptors. Many studies have reported increased expression of acid-sensing ion channel 3 (ASIC3) in inflammation and enhanced ASIC3 channel activity with pro-inflammatory mediators. However, the role of ASIC3 in inflammation remains inconclusive because of conflicting results generated from studies of <it>ASIC3 </it>knockout (<it>ASIC3</it>^-/-) or dominant-negative mutant mice, which have shown normal, decreased or increased hyperalgesia during inflammation.</p> <p>Results</p> <p>Here, we tested whether ASIC3 plays an important role in inflammation of subcutaneous tissue of paw and muscle in <it>ASIC3</it>^-/-mice induced by complete Freund's adjuvant (CFA) or carrageenan by investigating behavioral and pathological responses, as well as the expression profile of ion channels. Compared with the <it>ASIC3</it>^+/+controls, <it>ASIC3</it>^-/-mice showed normal thermal and mechanical hyperalgesia with acute (4-h) intraplantar CFA- or carrageenan-induced inflammation, but the hyperalgesic effects in the sub-acute phase (1–2 days) were milder in all paradigms except for thermal hyperalgesia with CFA-induced inflammation. Interestingly, carrageenan-induced primary hyperalgesia was accompanied by an <it>ASIC3</it>-dependent <it>Nav1.9 </it>up-regulation and increase of tetrodotoxin (TTX)-resistant sodium currents. CFA-inflamed muscle did not evoke hyperalgesia in <it>ASIC3</it>^-/-or <it>ASIC3</it>^+/+mice, whereas carrageenan-induced inflammation in muscle abolished mechanical hyperalgesia in <it>ASIC3</it>^-/-mice, as previously described. However, <it>ASIC3</it>^-/-mice showed attenuated pathological features such as less CFA-induced granulomas and milder carrageenan-evoked vasculitis as compared with <it>ASIC3</it>^+/+mice.</p> <p>Conclusion</p> <p>We provide a novel finding that ASIC3 participates in the maintenance of sub-acute-phase primary hyperalgesia in subcutaneous inflammation and mediates the process of granuloma formation and vasculitis in intramuscular inflammation.</p>