Abstract
AbstractUnicellular ciliates likeTetrahymenaare best known as free-living bacteriovores, but many species are facultative or obligate parasites. These ‘histophages’ feed on the tissues of hosts ranging from planarian flatworms to commercially important fish and the larvae of imperiled freshwater mussels. Here, we developed a novel bioinformatics pipeline incorporating the nonstandard ciliate genetic code and used it to search for Ciliophora sequences in 34 publicly available Platyhelminthes EST libraries. From 2,615,036 screened ESTs, we identified nearly 6,000 high-confidence ciliate transcripts, supporting parasitism of seven additional flatworm species. We also cultured and identifiedTetrahymenafrom nine terrestrial and freshwater planarians, including invasive earthworm predators from the genusBipaliumand the widely studied regeneration modelsDugesia japonicaandSchmidtea mediterranea. A cophylogenetic reconstruction provides strong evidence for coevolution of histophagous Ciliophora with their Platyhelminthes hosts. We further report the antiprotozoal aminoglycoside paromomycin expelsTetrahymenafromS. mediterranea, providing new opportunities to investigate the effects of this relationship on planarian biology. Together, our findings raise the possibility that invasive flatworms constitute a novel dispersal mechanism forTetrahymenaparasites and position the Platyhelminthes as an ideal model phylum for studying the ecology and evolution of histophagous ciliates.
Publisher
Cold Spring Harbor Laboratory