Use of a Tetrazolium‐based Cell Proliferation Assay to Measure Effects of In Vitro Conditions on Perkinsus marinus (Apicomplexa) Proliferation

. Because the in vitro cell cycle of the apicomplexan oyster pathogen Perkinsus marinus generates cell populations heterogeneous for size and typified by aggregation, both turbidimetric and counting methods for determining population densities and proliferation rates are inaccurate or cumbersome. We show that a commercial, tetrazolium‐based cell proliferation assay yields a soluble formazan chromophore upon intracellular reduction by P. marinus . at a rate proportional to cell population biovolume. Using this assay system, we have 1) defined selected culture system parameters which maximize P. marinus in vitro proliferation, 2) assessed selected chemosensitivities, and 3) standardized the assay system for quantification of densities and doubling times of populations propagated with our optimized system. Growth was supported by four tested base media and was maximized in 1:1 DME/Ham's F‐12. Temperatures of 10–40° C permitted growth, which was maximized at 35° C. pH 6.0–8.5 permitted growth, which was maximized at 7.0–7.5. Osmolalities of 340–1,930 mOsm supported growth, which was maximized at 790 mOsm. Serum supplements from 1–10% (v/v) did not enhance log phase growth, but enhanced stationary phase metabolic activity in proportion to concentration. Our isolate (ATCC 50439) has a 13 h log phase doubling time when propagated under optimized conditions: 28° C, 800 mOsm, pH 7.0, 1:1 DME/Ham's F‐12 medium, 5% (v/v) FBS. It is tolerant of antibacterial agents at concentrations commonly used in vertebrate tissue culture, but is inhibited by several antimycotics at similar concentrations.