Specific and Reversible Inhibition of Entamoeba histolytica Cysteine-Proteinase Activities by Zn2+

Background. Cysteine-proteinases are thought to play an important role in E. histolytica pathogenicity. Although effective blockage of proteolytic activities can be obtained with several known inhibitors, the high cellular toxicity of most of the inhibitors precludes experimentation with live cells or animal models. Specific cysteine-proteinase inhibitors that could be utilized in studies of virulence are of great need in the field of amebiasis. Methods. Cysteine-proteinase activities were determined in trophozoite lysates by azocasein degradation and after PAGE and gelatin zymograms. Inhibition of the activities was assessed in the presence of 0.01‐2.5 mM concentrations of divalent cations of the IIB and VIII series such as Zn, Cd, Hg, Ni, and Co. Reversibility was induced with 25 mM L-cysteine or 50 mM L-histidine and by metal chelation with 5 mM phenantroline. The inhibitory effect of ZnCl 2 was tested with live cells in fibronectin-binding and cytotoxicity assays. Results. ZnCl 2 specifically inhibited cysteine-proteinase activities in trophozoite lysates in a concentration-dependent manner. Additionally, 1.0‐2.5 mM ZnCl 2 blocked proteolysis in more than 70%. This inhibition was completely reverted by L-cysteine, L-histidine, or phenantroline. Similar results were obtained by analyzing individual cysteine-proteinase activities separated in gelatin zymograms. At these concentrations, ZnCl 2 significantly interfered with trophozoite adhesion, thus making amebas deficient in substrate degradation and cell damage. Conclusions. ZnCl 2 is an effective inhibitor of amebic cysteine-proteinases. Its low toxicity at relatively high concentrations, high solubility, and low cost make it adequate for live cell experimentation and animal models of amebic virulence. © 1999 IMSS. Published by Elsevier Science Inc.