β1-Anticollagenase from human plasma forms an inactive enzyme-inhibitor complex with active human polymorphonuclear leukocyte collagenase [Macartney, H. W. and Tschesche, H. (1983) Eur. J. Biochem. 130, 85–92]. The inhibitor was shown to contain a reactive sulfhydryl group necessary for inhibition of the collagenase. Inhibition of the enzyme by β1-anticollagenase was shown to take place via a thiol/disulfide interchange reaction similar to the mechanism reported for the reaction between polymorphonuclear leukocyte collagenase and the polymorphonuclear collagenase inhibitor [Macartney, H. W. and Tschesche, H. (1980) FEBS Lett. 119, 327–332]. The observations made in this paper have shown that the collagenases obtained from other human tissues, such as rheumatoid synovial fluid, embryonic skin fibroblasts, diabetic skin fibroblasts and normal skin fibroblasts, all react with β1-anticollagenase via a thiol/disulfide interchange mechanism, and are inhibited in a 1:1 stoichiometric reaction. Reaction of the inhibitor with the collagenases can be blocked by alkylation of the inhibitor's free sulfhydryl group with iodoacetamide, or by reaction of the inhibitor with disulfide-containing compounds such as cystine, oxidised glutathione, insulin, relaxin or trypsinogen. The β1-anticollagenase–collagenase complexes (latent enzyme) can all be reactivated with disulfide-containing compounds, such as those mentioned above. An activation process has been reported for human latent polymorphonuclear leukocyte collagenase via a thiol/disulfide interchange as catalysed by the glutathione cycle in a peroxidase-coupled reaction to glucose metabolism [Tschesche, H. and Macartney, H. W. (1981) Eur. J. Biochem. 120, 183–190]. The same physiological activation process is capable of reactivating β1-anticollagenase–collagenase complexes in a reversible manner. It was further shown in competition experiments with β1-anticollagenase (and with human leukocyte collagenase inhibitor) and α2-macroglobulin that vertebrate collagenases were preferentially inhibited by the low-molecular-weight inhibitors. It could also be shown that there was no transfer of the enzyme to α2-macroglobulin from either β1-anticollagenase–collagenase, or leukocyte inhibitor–collagenase complexes indicating a true inhibitory function for the β1-anticollagenase and the leukocyte collagenase inhibitor.