PEXEL is a proteolytic maturation site for both exported and non-exported Plasmodium proteins

PEXEL is a proteolytic maturation site for both exported and non-exported Plasmodium proteins

Obligate intracellular malaria parasites dramatically remodel their erythrocyte host through effector protein export to create a niche for survival. Most exported proteins contain a pentameric port ement (PEXEL)/host-targeting motif that is cleaved in the parasite ER by the aspartic protease Plasmep...

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Published in:mSphere Vol. 9; no. 2; p. e0039323
Main Authors: Fierro, Manuel A, Muheljic, Ajla, Sha, Jihui, Wohlschlegel, James, Beck, Josh R
Format: Journal Article
Language:English
Published: United States American Society for Microbiology 28-02-2024
Subjects:
Aspartic acid
Aspartic endopeptidase
Blood
export
Localization
Malaria
Mass spectrometry
Maturation
Microscopy
Parasites
Parasitology
Parasitophorous vacuole
Peptides
PEXEL
Phosphatase
Plasmepsin V
Plasmodium
Protein transport
Proteins
Proteolysis
Research Article
RON11
Scientific imaging
UIS2
Plasmodium
PEXEL
UIS2
Plasmepsin IX
RON11
export
Plasmepsin V
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Summary:Obligate intracellular malaria parasites dramatically remodel their erythrocyte host through effector protein export to create a niche for survival. Most exported proteins contain a pentameric port ement (PEXEL)/host-targeting motif that is cleaved in the parasite ER by the aspartic protease Plasmepsin V (PMV). This processing event exposes a mature N terminus required for translocation into the host cell and is not known to occur in non-exported proteins. Here, we report that the non-exported parasitophorous vacuole protein UIS2 contains a PEXEL motif that is processed in the blood stage. While the N termini of exported proteins containing the PEXEL and immediately downstream ~10 residues are sufficient to mediate translocation into the RBC, the equivalent UIS2 N terminus does not promote the export of a reporter. Curiously, the UIS2 PEXEL contains an unusual aspartic acid at the fourth position, which constitutes the extreme N-terminal residue following PEXEL cleavage (P1', RIL↓DE). Using a series of chimeric reporter fusions, we show that Asp at P1' is permissive for PMV processing but abrogates export. Moreover, mutation of this single UIS2 residue to alanine enables export, reinforcing that the mature N terminus mediates export, not PEXEL processing . Prompted by this observation, we further show that PEXEL sequences in the N termini of other non-exported rhoptry proteins are also processed, suggesting that PMV may be a more general secretory maturase than previously appreciated, similar to orthologs in related apicomplexans. Our findings provide new insight into the unique N-terminal constraints that mark proteins for export.IMPORTANCEHost erythrocyte remodeling by malaria parasite-exported effector proteins is critical to parasite survival and disease pathogenesis. In the deadliest malaria parasite , most exported proteins undergo proteolytic maturation via recognition of the pentameric port ement (PEXEL)/host-targeting motif by the aspartic protease Plasmepsin V, which exposes a mature N terminus that is conducive for export into the erythrocyte host cell. While PEXEL processing is considered a unique mark of exported proteins, we demonstrate that PEXEL motifs are present and processed in non-exported proteins. Importantly, we show that specific residues at the variable fourth position of the PEXEL motif inhibit export despite being permissive for processing, reinforcing that features of the mature N terminus, and not PEXEL cleavage, identify cargo for export. This opens the door to further inquiry into the nature and evolution of the PEXEL motif.
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The authors declare no conflict of interest.
ISSN:2379-5042
2379-5042
DOI:10.1128/msphere.00393-23