Toxoplasma gondiiF-Box Protein L2 Silences Feline-Restricted Genes Necessary for Sexual Commitment

Abstract

ABSTRACTToxoplasma gondiiis a foodborne pathogen that can cause severe and life-threatening infections in fetuses and immunocompromised patients. Felids are its only definitive hosts, and a wide range of animals, including humans, serve as intermediate hosts. When the transmissible bradyzoite stage is orally ingested by felids, they transform into merozoites that expand asexually, ultimately generating millions of gametes for the parasite sexual cycle. However, bradyzoites in intermediate hosts differentiate exclusively to disease-causing tachyzoites, which rapidly disseminate throughout the host. Though tachyzoites are well-studied, the molecular mechanisms governing transitioning between developmental stages are poorly understood. Each parasite stage can be distinguished by a characteristic transcriptional signature, with one signature being repressed during the other stages. Switching between stages requires substantial changes in the proteome, which is achieved in part by ubiquitination. F-box proteins mediate protein poly-ubiquitination by recruiting substrates to SKP1, Cullin-1, F-Box protein E3 ubiquitin ligase (SCF-E3) complexes. We have identified an F-box protein namedToxoplasma gondiiF-Box Protein L2 (TgFBXL2), which localizes to distinct nuclear sites. TgFBXL2 is stably engaged in an SCF-E3 complex that is surprisingly also associated with a COP9 signalosome complex that negatively regulates SCF-E3 function. At the cellular level, TgFBXL2-depleted parasites are severely defective in centrosome replication and daughter cell development. Most remarkable, RNA seq data show that TgFBXL2 conditional depletion induces the expression of genes necessary for sexual commitment. We suggest that TgFBXL2 is a latent guardian of sexual stage development inToxoplasmaand poised to remove conflicting proteins in response to an unknown trigger of sexual development.AUTHOR SUMMARYToxoplasma gondiiis a protozoan parasite that replicates sexually in felids and asexually in nearly all other mammals with each life stage having a specific transcriptional profile. When life stage specific transcription is not properly controlled, the parasite dies and therefore it’s important to understand what inhibits expression of sexual stage genes during asexual growth and vice versa. Here we identify a ubiquitin E3 ligase complex that inhibits sexual stage gene expression during asexual growth.