Effect of Monovalent Thallium Ions on Differentiation and Multiplication of Acanthamoeba castellanii

Abstract

The vegetatively multiplying Acanthamoeba castellanii cells are transformed into cysts under unfavourable feeding conditions. The cyst formation may also be induced by treatment of the cells with DNA-synthesis inhibitors or by placing the cells into special ionic medium containing magnesium and calcium at pH 9, with aeration. During Acanthamoeba encystment the morphology of the cells changes significantly, namely a cellulose-protein cyst wall appears which is easily seen under the light and electron microscope. The process of encystment in Acanthamoeba castellanii is considered as a useful simple model of cytodifferentiation of eukaryotic cells. This communication describes the effects of monovalent thallium ions on the differentiation and multiplication of Acanthamoeba cells growing in optimal feeding conditions. Thallium ions being potassium analogues are readily accumulated by cells. On the other hand, thallium ions, unlike potassium ions, are able to form complexes with some anions, which results in disturbances of some cellular functions. Thallium ions, added to the growth medium of 2–3-days old Acanthamoeba culture at a concentration of 0.05–1.0 mM inhibit the population growth inducing the differentiation of cells into cysts. The increase of the thallium ion concentration up to 5 or 10 mM in the growth medium causes the very fast multiplication of Acanthamoeba cells. However, at these thallium ion concentrations no cysts can be observed. Thus, on the basis of the experimental data it seems likely that thallium ions play some role in increasing the rate of multiplication and in switching on the differentiation process (encystment) in Acanthamoeba cells.