Altered protease activity is thought to be important in tumour cell invasion and metastasis, and to have a profound role in angiogenesis. Implicated proteases belong to the serine, metallo-, aspartic and cysteine protease classes. The latter comprises more than 30 protein families [1], including family C1 with mammalian enzymes like cathepsins B and L involved in cancer growth and metastasis [2]. Since the involvement of cathepsin B in cancer metastasis was originally described by Sloane et al. [3], cathepsins, and especially cathepsin B, have been studied thoroughly. The activity of the C1 family of cysteine proteases is balanced by tight-binding inhibitors, the cystatins [4]. The cystatin protein family comprises three major groups of inhibitors: type 1 cystatins, also called stefins, which are intracellular proteins present in most cells (cystatin A and B); type 2 cystatins, which are extracellular inhibitors found in most body fluids (cystatin C, D, E ⁄ M, F, G, H, S, SA and SN); and type 3, which are multidomain proteins, the kininogens. Among the Altered protease activity is considered important for tumour invasion and metastasis, processes in which the cysteine proteases cathepsin B and L are involved. Their natural inhibitor cystatin C is a secreted protein, suggesting that it functions to control extracellular protease activity. Because cystatins added to cell cultures can inhibit polio, herpes simplex and coronavirus replication, which are intracellular processes, the internalization and intracellular regulation of cysteine proteases by cystatin C should be considered. The extension, mechanism and biological importance of this hypothetical process are unknown. We investigated whether internalization of cystatin C occurs in a set of human cell lines. Demonstrated by flow cytometry and confocal microscopy, A-431, MCF-7, MDA-MB-453, MDA-MB-468 and Capan-1 cells internalized fluorophore-conjugated cystatin C when exposed to physiological concentrations (1 lm). During cystatin C incubation, intracellular cystatin C increased after 5 min and accumulated for at least 6 h, reaching four to six times the baseline level. Western blotting showed that the internalized inhibitor was not degraded. It was functionally intact and extracts of cells exposed to cystatin C showed a higher capacity to inhibit papain and cathepsin B than control cells (decrease in enzyme activity of 34% and 37%, respectively). The uptake of labelled cystatin C was inhibited by unlabelled inhibitor, suggesting a specific pathway for the internalization. We conclude that the cysteine protease inhibitor cystatin C is internalized in significant quantities in various cancer cell lines. This is a potentially important physiological phenomenon not previously described for this group of inhibitors.Abbreviations CLSM, confocal laser scanning microscopy; DOL, degree of protein labelling; PCI, potato carboxypeptidase inhibitor.
