Uncovering Common Principles in Protein Export of Malaria Parasites

Grüring, Christof; Heiber, Arlett; Kruse, F.; Flemming, Sven; Franci, Gianluigi; Colombo, Sara; Fasana, Elisa; Schoeler, Hanno; Borgese, Nica; Stunnenberg, Hendrik G.; Przyborski, Jude M.; Gilberger, Tim‐Wolf; Spielmann, Tobias

doi:10.1016/j.chom.2012.09.010

Cited by 116 publications

(275 citation statements)

References 40 publications

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“…[14][15][16] A number of exported proteins do not contain a PEXEL/VTS motif and are thus called PEXEL-negative exported proteins (PNEPs); their transport pathways are unknown. 5,17 Various proteins play a role in trafficking PfEMP1 to the P falciparum-infected RBC membrane and its assembly into knob structures (reviewed in Maier et al protein 1 (MAHRP1), 21 or ring-exported protein 1 (REX1), 22 PfEMP1 cannot be displayed on the RBC membrane. Additionally, a largescale gene-knockout screen in P falciparum identified other proteins required for trafficking and function of PfEMP1.…”

Section: Introductionmentioning

confidence: 99%

“…The further route of PfEMP1 is largely unknown; it is either trafficked through the erythrocyte cytosol via a vesicular pathway or in a complex where it transiently associates with parasite-induced membranous compartments, named Maurer's clefts (MC). 5 The protein is subsequently translocated onto RBC membranes and anchored in protrusions of the membrane (knobs). 6 Knobs are points of elevation and concentration for PfEMP1 anchoring to host cytoskeleton facilitating binding to receptors on host cells.…”

Section: Introductionmentioning

confidence: 99%

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Export of virulence proteins by malaria-infected erythrocytes involves remodeling of host actin cytoskeleton

Rug

Cyrklaff

Mikkonen

et al. 2014

Blood

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Export of virulence proteins by malaria-infected erythrocytes involves remodeling of host actin cytoskeleton

Rug

Cyrklaff

Mikkonen

et al. 2014

Blood

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show abstract

“…A transmembrane domain or a signal peptide seems to be essential, most likely for entering the ER and the secretory pathway (41,43,48,106). Unfolding appears to be equally required for PEXELpositive proteins, suggesting similar mode of translocation across the PVM (104,107). Interestingly, processed N termini of PEXELpositive proteins promote the export of a reporter gene, like unprocessed N termini of PEXEL-negative proteins (107).…”

Section: Proteins Reach Maurer's Clefts Via a Complex Transport Pathwaymentioning

confidence: 99%

“…Unfolding appears to be equally required for PEXELpositive proteins, suggesting similar mode of translocation across the PVM (104,107). Interestingly, processed N termini of PEXELpositive proteins promote the export of a reporter gene, like unprocessed N termini of PEXEL-negative proteins (107). An open question is whether these proteins are guided through the same or totally distinct translocon.…”

Section: Proteins Reach Maurer's Clefts Via a Complex Transport Pathwaymentioning

confidence: 99%

Maurer's clefts, the enigma of Plasmodium falciparum

Mundwiler-Pachlatko

Beck

2013

Proc. Natl. Acad. Sci. U.S.A.

101

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Plasmodium falciparum, the causative agent of malaria, completely remodels the infected human erythrocyte to acquire nutrients and to evade the immune system. For this process, the parasite exports more than 10% of all its proteins into the host cell cytosol, including the major virulence factor PfEMP1 (P. falciparum erythrocyte surface protein 1). This unusual protein trafficking system involves long-known parasitederived membranous structures in the host cell cytosol, called Maurer's clefts. However, the genesis, role, and function of Maurer's clefts remain elusive. Similarly unclear is how proteins are sorted and how they are transported to and from these structures. Recent years have seen a large increase of knowledge but, as yet, no functional model has been established. In this perspective we review the most important findings and conclude with potential possibilities to shed light into the enigma of Maurer's clefts. Understanding the mechanism and function of these structures, as well as their involvement in protein export in P. falciparum, might lead to innovative control strategies and might give us a handle with which to help to eliminate this deadly parasite.

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“…In the next step, PEXEL-containing proteins are matured by the Plasmepsin V protease, and the newly exposed N-terminal sequence is likely recognized by the translocation machinery (Boddey and Cowman, 2013b;Marti and Spielmann, 2013). Amino acids within the PEXEL motif after cleavage were shown to be important for export (Gruring et al, 2012;Boddey et al, 2013a;Tarr et al, 2013).…”

Section: Gra24 Discovery Uncovers a New Regulatory Path Distinct Frommentioning

confidence: 99%

Toxoplasmaexports dense granule proteins beyond the vacuole to the host cell nucleus and rewires the host genome expression

2014

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SummaryToxoplasma gondii is the most widespread apicomplexan parasite and occupies a large spectrum of niches by infecting virtually any warmblooded animals. As an obligate intracellular parasite, Toxoplasma has evolved a repertoire of strategies to fine-tune the cellular environment in an optimal way to promote growth and persistence in host tissues hence increasing the chance to be transmitted to new hosts. Short and long-term intracellular survival is associated with Toxoplasma ability to both evade the host deleterious immune defences and to stimulate a beneficial immune balance by governing host cell gene expression. It is only recently that parasite proteins responsible for driving these transcriptional changes have been identified. While proteins contained in the apical secretory Rhoptry organelle have already been identified as bona fide secreted effectors that divert host signalling pathways, recent findings revealed that dense granule proteins should be added to the growing list of effectors as they reach the host cell cytoplasm and nucleus and target various host cell pathways in the course of cell infection. Herein, we emphasize on a novel subfamily of dense granule resident proteins, exemplified with the GRA16 and GRA24 members we recently discovered as both are exported beyond the vacuole-containing parasites and reach the host cell nucleus to reshape the host genome expression.

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Uncovering Common Principles in Protein Export of Malaria Parasites

Cited by 116 publications

References 40 publications

Export of virulence proteins by malaria-infected erythrocytes involves remodeling of host actin cytoskeleton

Export of virulence proteins by malaria-infected erythrocytes involves remodeling of host actin cytoskeleton

Maurer's clefts, the enigma of Plasmodium falciparum

Toxoplasmaexports dense granule proteins beyond the vacuole to the host cell nucleus and rewires the host genome expression

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