Toxoplasma ceramide synthases: Gene duplication, functional divergence, and roles in parasite fitness

Author:

Koutsogiannis Zisis1,Mina John G.1ORCID,Albus Christin A.1ORCID,Kol Matthijs A.2ORCID,Holthuis Joost C. M.2ORCID,Pohl Ehmke13ORCID,Denny Paul W.1ORCID

Affiliation:

1. Department of Biosciences Durham University Durham UK

2. Molecular Cell Biology Division, Department of Biology/Chemistry University of Osnabrück Osnabrück Germany

3. Department of Chemistry Durham University Durham UK

Abstract

AbstractToxoplasma gondii is an obligate, intracellular apicomplexan protozoan parasite of both humans and animals that can cause fetal damage and abortion and severe disease in the immunosuppressed. Sphingolipids have indispensable functions as signaling molecules and are essential and ubiquitous components of eukaryotic membranes that are both synthesized and scavenged by the Apicomplexa. Ceramide is the precursor for all sphingolipids, and here we report the identification, localization and analyses of the Toxoplasma ceramide synthases TgCerS1 and TgCerS2. Interestingly, we observed that while TgCerS1 was a fully functional orthologue of the yeast ceramide synthase (Lag1p) capable of catalyzing the conversion of sphinganine to ceramide, in contrast TgCerS2 was catalytically inactive. Furthermore, genomic deletion of TgCerS1 using CRISPR/Cas‐9 led to viable but slow‐growing parasites indicating its importance but not indispensability. In contrast, genomic knock out of TgCerS2 was only accessible utilizing the rapamycin‐inducible Cre recombinase system. Surprisingly, the results demonstrated that this “pseudo” ceramide synthase, TgCerS2, has a considerably greater role in parasite fitness than its catalytically active orthologue (TgCerS1). Phylogenetic analyses indicated that, as in humans and plants, the ceramide synthase isoforms found in Toxoplasma and other Apicomplexa may have arisen through gene duplication. However, in the Apicomplexa the duplicated copy is hypothesized to have subsequently evolved into a non‐functional “pseudo” ceramide synthase. This arrangement is unique to the Apicomplexa and further illustrates the unusual biology that characterize these protozoan parasites.

Funder

Fundação de Amparo à Pesquisa do Estado de São Paulo

Biotechnology and Biological Sciences Research Council

Publisher

Wiley

Subject

Genetics,Molecular Biology,Biochemistry,Biotechnology

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