Simultaneous purification of merozoites and schizonts of Eimeria tenella (Apicomplexa) by Percoll flotation and assessment of cell viability with a double fluorescent dye assay.

The asynchronous development of Eimeria tenella in orally infected chickens makes it possible to purify second generation merozoites (meros) and shizonts from a single mucosal homogenate. After centrifugation in 30% Percoll in phosphate-buffered saline (Percoll-PBS), debris, villi, and schizonts float, whereas meros and erythrocytes are pelleted. Erythrocytes are lysed by a mild hypotonic shock; meros are filtered through a cotton wool plug and collected by centrifugation. The 30% Percoll-PBS supernatant fraction is diluted to 25% Percoll-PBS and centrifuged to sediment mature schizonts. By repeated slow-speed centrifugation, schizonts are separated from nuclei and small-sized debris. In less than 3 hr, 8.8 +/- 2.3 x 10(8) meros and 7.2 +/- 3.9 x 10(6) schizonts are collected from 10 infected chickens. Contamination with host material is 2% for meros but variable for schizonts. For the assessment of cell viability, ethidium bromide (EB) and acridine orange (AO) have been used as markers for dead and living cells, respectively, in a single step method. More than 95% of the schizonts and meros accumulate AO and no EB, whereas lysed erythrocytes and all cells hosting a schizont are permeable to EB. After incubation of meros and schizonts in synthetic media with [5,6- 3H]uracil, label accumulates in the perchloric acid-soluble and -insoluble fractions, indicating transport, salvage, and incorporation of the pyrimidine precursor in nucleic acids. If stored on ice, meros and schizonts retain metabolic activity for at least 5 hr, but metabolism declines rapidly during incubation at 41 C.