Microsporidian mitochondrial proteins: expression in Antonospora locustae spores and identification of genes coding for two further proteins

Abstract

Microsporidia are obligate intracellular parasites, phylogenetically allied to the fungi. Once considered amitochondriate, now a number of mitochondrion-derived genes have been described from various species, and the relict organelle was recently identified in Trachipleistophora hominis. We have investigated the expression of potential mitochondrial targeted proteins in the spore stage to determine whether the organelle is likely to have a role in the spore or early infection stage. To investigate whether the Antonospora locustae genome codes for a different complement of mitochondrial proteins than Encephalitozoon cuniculi an EST library was searched for putative mitochondrial genes that have not been identified in the E. cuniculi genome project. The spore is the infectious stage of microsporidia, but is generally considered to be metabolically dormant. Fourteen genes for putatively mitochondrion-targeted proteins were shown to be present in purified spore mRNA by 3'-rapid amplification of cDNA ends and EST sequencing. Pyruvate dehydrogenase E1alpha and mitochondrial glycerol-3-phosphate dehydrogenase proteins were also shown to be present in A. locustae and E. cuniculi spores, respectively, suggesting a role for these proteins in the early stages of infection, or within the spore itself. EST sequencing also revealed two mitochondrial protein-encoding genes in A. locustae that are not found in the genome of E. cuniculi. One encodes a possible pyruvate transporter, the other a subunit of the mitochondrial inner membrane peptidase. In yeast mitochondria, this protein is part of a trimeric complex that processes proteins targeted to the inner membrane and the intermembrane space, and its substrate in A. locustae is presently unknown.