Alternative mechanism of Eimeria bovis sporozoites to invade cells in vitro by breaching the plasma membrane.

In vitro Eimeria bovis sporozoites invade a wide range of cell types, and in the case of bovine cells, they may develop to first-generation schizonts. Often, however, they subsequently leave their host cell to invade a new one, which seems contrary to the classical way of infecting a cell by forming a parasitophorous vacuole. Using a standard, "cell wound assay," we show that E. bovis can invade bovine endothelial cells by breaching the plasma membrane and may again leave the surviving cell. Eimeria bovis sporozoites also infected VERO and HT29 cells but obviously without damaging the plasma membrane. The same held true when bovine endothelial cells were exposed to tachyzoites of Toxoplasma gondii and Neospora caninum. According to a literature report dealing with Plasmodium yoelii sporozoites, breaching the membrane of certain host cells may be a common phenomenon for coccidian sporozoites but may not be for merozoites.

Intracellular calcium and pH conditions of cultured cells infected with Eimeria bovis or E. separata.

Loading of Eimeria bovis-infected Vero cells with membrane-permeant acetoxymethyl esters (AM-esters) of ion-sensitive dyes provided us with a noninvasive method for investigation of the permeability of the parasitophorous vacuole membrane (PVM) and simultaneous measurement of Ca2+ and H+ concentrations in different compartments of the infected cells. The distribution patterns of the cleaved membrane-impermeant dyes argue against the existence of nonselective pores in the PVM. There is also no indication of a parasitophorous duct connecting the vacuolar space with extracellular media. The pH inside the parasitophorous vacuole (PV) was lower than that in the cytoplasm of the host cell or the parasite, whereas the [Ca2+] in these compartments did not differ significantly. In HT29 cells infected with E. separata for 24 h the Ca2+ response to extracellular adenosine triphosphate (ATP) was significantly reduced, indicating influences on the host cell's intracellular signaling.