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The malaria parasite sheddase SUB2 governs host red blood cell membrane sealing at invasion

Christine R. Collins, Fiona Hackett, Steven Howell, Ambrosius P. Snijders, Matthew R. G. Russell, Lucy Collinson, Michael J. Blackman

2020eLife30 citationsDOIOpen Access PDF

Abstract

Red blood cell (RBC) invasion by malaria merozoites involves formation of a parasitophorous vacuole into which the parasite moves. The vacuole membrane seals and pinches off behind the parasite through an unknown mechanism, enclosing the parasite within the RBC. During invasion, several parasite surface proteins are shed by a membrane-bound protease called SUB2. Here we show that genetic depletion of SUB2 abolishes shedding of a range of parasite proteins, identifying previously unrecognized SUB2 substrates. Interaction of SUB2-null merozoites with RBCs leads to either abortive invasion with rapid RBC lysis, or successful entry but developmental arrest. Selective failure to shed the most abundant SUB2 substrate, MSP1, reduces intracellular replication, whilst conditional ablation of the substrate AMA1 produces host RBC lysis. We conclude that SUB2 activity is critical for host RBC membrane sealing following parasite internalisation and for correct functioning of merozoite surface proteins.

Topics & Concepts

BiologyParasite hostingCell biologyVacuoleRed blood cellIntracellular parasiteIntracellularMicrobiologyCytoplasmBiochemistryWorld Wide WebComputer scienceMalaria Research and ControlMosquito-borne diseases and controlComplement system in diseases
The malaria parasite sheddase SUB2 governs host red blood cell membrane sealing at invasion | Litcius