The present study examines firstly, the inhibition of collagen gelation to explore the possible involvement of Cu⁺⁺-catalyzed peroxidation in rheumatoid arthritis and secondly, the effect of sodium salicylate on this peroxidative reaction to provide a possible explanation for its mechanism of anti-inflammatory action. Incubation of collagen obtained from rat skin with Cu⁺⁺ and H₂O₂ resulted in the inhibition of gelation in terms of maximal turbidity and lag phase, but either Cu⁺⁺ or H₂O₂ alone essentially gave no effect in the collagen gelation. In the presence of sodium salicylate the inhibited gelation of collagen induced by Cu⁺⁺ and H₂O₂ was reversed with the dependency of the concentration of sodium salicylate. Moreover, the rate of H₂O₂ decomposition by Cu⁺⁺ was accelerated by sodium salicylate and this decomposition of H₂O₂ was found to be saturable in terms of concentration of this drugs. Thus it can be expected that Cu⁺⁺ -catalyzed peroxidation attacks collagen resulting in change of structural or functional integrity of collagen, and sodium salicylate may act on this peroxidative process, possibly through the enhancement of catalatic action of Cu⁺⁺. From these results Cu⁺⁺-catalyzed peroxidation can be in part responsible for degradation of joint tissue in rheumatoid arthritis and sodium salicylate may exert its anti-inflammatory action by this peroxidative reaction.