Ferguson Maj

Bio: Ferguson Maj is an academic researcher from University of Dundee. The author has contributed to research in topics: Glycosylation & Fucosyltransferase. The author has co-authored 1 publications.

A broadly active fucosyltransferase LmjFUT1 whose mitochondrial localization and catalytic activity is essential in the parasitic protozoan Leishmania

Abstract: Glycoconjugates play major roles in the infectious cycle of the trypanosomatid parasite Leishmania. While GDP-Fucose synthesis is essential (Guo et al 2017), fucosylated glycoconjugates have not been reported in Leishmania major. Four predicted fucosyltransferases appear conventionally targeted to the secretory pathway; SCA1/2 play a role in side-chain modifications of lipophosphoglycan, while gene deletion studies here showed that FUT2 and SCAL were not essential. Unlike most eukaryotic glycosyltransferases, the predicted α 1-2 fucosyltransferase encoded by FUT1 localized to the mitochondrion. A quantitative ‘plasmid segregation’ assay, expressing FUT1 from the multicopy episomal pXNG vector in a chromosomal null Δfut1- background, established that FUT1 is essential. Similarly “plasmid shuffling” confirmed that both enzymatic activity and mitochondrial localization were required for viability, comparing import-blocked or catalytically inactive enzymes respectively. Enzymatic assays of tagged proteins expressed in vivo or of purified recombinant FUT1 showed it had a broad fucosyltransferase activity including glycan and peptide substrates. Unexpectedly a single rare Δfut1-s segregant (Δfut1s) was obtained in rich media, which showed severe growth defects accompanied by mitochondrial dysfunction and loss, all of which were restored upon FUT1 re-expression. Thus, FUT1 along with the similar Trypanosoma brucei enzyme TbFUT1 (Bandini et al 2021) joins the eukaryotic O-GlcNAc transferase isoform as one of the few glycosyltransferases acting within the mitochondrion. Trypanosomatid mitochondrial FUT1s may offer a facile system for probing mitochondrial glycosylation in a simple setting and their essentiality renders it an attractive target for chemotherapy of these serious human pathogens. Significance Statement Abundant surface glycoconjugates play key roles in the infectious cycle of protozoan parasites including Leishmania. Through defining biosynthetic pathways we identified a fucosyltransferase FUT1 that was localized to the parasite mitochondrion, an atypical compartment for glycosyltransferases. FUT1 was essential for normal growth, requiring both mitochondrial localization and enzymatic activity. Loss of FUT1 in a unique segregant showed extensive mitochondrial defects. Enzymatic tests showed FUT1 could fucosylate glycan and peptide substrates in vitro, although as yet the native substrate is unknown. Trypanosomatid mitochondrial FUT1s may offer a facile system in the future for probing mitochondrial glycosylation in a setting uncomplicated by multiple isoforms targeted to diverse compartments, and its essentiality renders it an attractive target for chemotherapy of these deadly parasites.