Evidence for trafficking of PfEMP1 to the surface of P. falciparum-infected erythrocytes via a complex membrane network
Author(s)
Wickert, H
Wissing, F
Andrews, KT
Stich, A
Krohne, G
Lanzer, M
Griffith University Author(s)
Year published
2003
Metadata
Show full item recordAbstract
The human malarial parasite Plasmodium falciparum exports virulence determinants, such as the P. falciparum erythrocyte membrane protein 1 (PfEMP1), beyond its own periplasmatic boundaries to the surface of its host erythrocyte. This is remarkable given that erythrocytes lack a secretory pathway. Here we present evidence for a continuous membrane network of parasite origin in the erythrocyte cytoplasm. Co-localizations with antibodies against PfEMP1, PfExp-1, Pf332 and PfSbp1 at the light and electron microscopical level indicate that this membrane network is composed of structures that have been previously described as ...
View more >The human malarial parasite Plasmodium falciparum exports virulence determinants, such as the P. falciparum erythrocyte membrane protein 1 (PfEMP1), beyond its own periplasmatic boundaries to the surface of its host erythrocyte. This is remarkable given that erythrocytes lack a secretory pathway. Here we present evidence for a continuous membrane network of parasite origin in the erythrocyte cytoplasm. Co-localizations with antibodies against PfEMP1, PfExp-1, Pf332 and PfSbp1 at the light and electron microscopical level indicate that this membrane network is composed of structures that have been previously described as tubovesicular membrane network (TVM), Maurer's clefts and membrane whorls. This membrane network could also be visualized in vivo by vital staining of infected erythrocytes with the fluorescent dye LysoSensor Green DND-153. At sites where the membrane network abuts the erythrocyte plasma membrane we observed small vesicles of 15 - 25 nm in size, which seem to bud from and/or fuse with the membrane network and the erythrocyte plasma membrane, respectively. On the basis of our data we hypothesize that this membrane network of parasite origin represents a novel secretory organelle that is involved in the trafficking of PfEMP1 across the erythrocyte cytoplasm.
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View more >The human malarial parasite Plasmodium falciparum exports virulence determinants, such as the P. falciparum erythrocyte membrane protein 1 (PfEMP1), beyond its own periplasmatic boundaries to the surface of its host erythrocyte. This is remarkable given that erythrocytes lack a secretory pathway. Here we present evidence for a continuous membrane network of parasite origin in the erythrocyte cytoplasm. Co-localizations with antibodies against PfEMP1, PfExp-1, Pf332 and PfSbp1 at the light and electron microscopical level indicate that this membrane network is composed of structures that have been previously described as tubovesicular membrane network (TVM), Maurer's clefts and membrane whorls. This membrane network could also be visualized in vivo by vital staining of infected erythrocytes with the fluorescent dye LysoSensor Green DND-153. At sites where the membrane network abuts the erythrocyte plasma membrane we observed small vesicles of 15 - 25 nm in size, which seem to bud from and/or fuse with the membrane network and the erythrocyte plasma membrane, respectively. On the basis of our data we hypothesize that this membrane network of parasite origin represents a novel secretory organelle that is involved in the trafficking of PfEMP1 across the erythrocyte cytoplasm.
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Journal Title
European Journal of Cell Biology
Volume
82
Issue
6
Publisher URI
Subject
Biochemistry and cell biology
Plant biology