Regulatory Effect of the Level of Free Ca 2+ of the Host Cell on the Capacity of Trypanosoma cruzi to Invade and Multiply Intracellularly

Abstract

We studied whether modification of the free intracellular Ca2+ level of a mammalian host cell would affect its susceptibility to infection by Trypanosoma cruzi or its capacity to support trypomastigote-->amastigote transformation and amastigote replication. Pretreatment of rat heart myoblasts (RHM) with BAPTA.AM or Quin-2.AM, intracellular Ca2+ chelators, decreased the susceptibility of these cells to infection by untreated trypomastigotes. This was evidenced by a significant drop in both the percentage of infected RHM and the average number of organisms per 100 host cells relative to control values. Similar RHM treatment with the Ca2+ ionophore ionomycin had the opposite effects. The rate of trypomastigote-->amastigote transformation measured in RHM that had been treated with BAPTA.AM, Quin-2.AM, or ionomycin before and after, but not during co-culture with trypomastigotes was not significantly altered. The rate of intracellular amastigote multiplication measured in RHM exposed to the intracellular Ca2+ chelators only after virtually all of the internalized trypomastigotes had transformed into amastigotes was significantly decreased by incubation with BAPTA.AM or Quin-2.AM but was increased by ionomycin. None of the drug treatments affected RHM viability to any significant extent. These results suggest that T. cruzi relies on host cell Ca(2+)-dependent events, utilizes host cell free Ca2+ during invasion, or both, and highlight a requirement for an adequate free Ca2+ level for effective intracellular T. cruzi multiplication but not for trypomastigote-->amastigote transformation.