Abstract
The human pathogen Campylobacter jejuni can be packaged within multilamellar bodies (MLB), also called fecal pellets, produced by ciliates such as Tetrahymena pyriformis when these microorganisms are cocultivated. This packaging increases the survival of C. jejuni in oxygenic conditions and potentially protects it against other stressors. Traditional methods for detecting and quantifying these pellets, such as transmission electron microscopy (TEM) and fluorescence microscopy, are time-consuming and labor intensive. In this study, we devised an approach for utilizing flow cytometry to distinguish and quantify C. jejuni-containing pellets produced by both T. pyriformis and T. thermophila. Cocultures of each Tetrahymena species with four different C. jejuni strains, along with monoculture controls, were incubated for 24 h, stained with SYTO9, and analysed using flow cytometry. The results revealed ciliate species-specific and bacterial strain-specific differences in the number of pellets and their fluorescence intensity. TEM confirmed that this variability in fluorescence corresponds to differences in the number of bacteria per pellet. Our method provides a rapid and efficient means of quantifying bacteria-containing MLBs, which would facilitate the screening and comparison of a large quantity of C. jejuni strains and different conditions for studying the packaging of C. jejuni by ciliates.