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Cell Biology of Plasmodium
Mark F. Wiser
http://www.tulane.edu/~wiser/malaria/
• Merozoite invasion involves specific interactions with the host erythrocyte.
• The actively growing parasite places metabolic and other demands on the host cell.
• Ultrastructural modifica-tions are evident in the infected erythrocyte.
Plasmodium Invasive Stages
ookinete (motile)• mosquito gut
epithelial cells
sporozoite (motile)• mosquito salivary
glands• hepatocytes
merozoite (non-motile)• erythrocytes
Bannister et al (2003) J Cell Sci 116, 3825
Steps in Merozoite Invasion
• accompanied by erythrocyte deformation
• AMA-1 implicated*• apical membrane antigen-1• binds erythrocytes• antibodies inhibit invasion
and reorientation• antibodies do not inhibit
initial attachment
Reorientation
*Mitchell et al (2004) Inf. Imm. 72, 154.
Secretory (Apical) OrganellesOrganelle Shape Size (nm)Rhoptry Teardrop 300 x 600Microneme Ellipsoidal 40 x 100
Dense Granule Spherical 120 - 140
•Merozoite proteins:• EBA-175 (sialic binding protein of P. falciparum)• Duffy-binding protein (P. vivax and P. knowlesi)
•TRAP family*:• SSP2 (sporozoite surface protein-2) TRAP
(thrombospondin-related adhesive protein)• Toxoplasma, Eimeria and Cryptosporidium
proteins with homology to SSP2/TRAP• CTRP, circumsporozoite- and TRAP-related
protein (Plasmodium ookinete stage)
Proteins Localized to Micronemes
*Thrombospondin family characterized by von Willebrand factor type A domain. Functions in cell-cell and cell-matrix interactions.
Invasion Receptors/Ligands
SpeciesHost
ReceptorMerozoite
Ligand
P. falciparumglycophorins(sialic acid)
EBA-175
P. vivax,P. knowlesi
Duffy Ag DBP
Tham et al (2012) Tr. Parasitol. 28:23
Electron micrograph from Aikawa et al (1978) J. Cell Biol. 77:72
• microneme secretion• receptor-ligand
interactions• junction formation
Events correlated with entry
• clearance of erythrocyte membrane proteins
• host membrane invagination
• parasitophorous vacuolar membrane (PVM) formation
• junction becomes an annulus (ring)
Tonkin et al 2011, Science 233,463
Rhoptries also participate in junction formation
•Rhoptry neck proteins (RONs) inserted into host membrane
•RON2 interacts with AMA-1
•Forms part of the moving junction
Rhoptries are likely involved in PVM formation
• Junction Formation– microneme adhesins +
erythrocyte receptors– RON2 + AMA-1
• Parasite Entry– reorganization of submembrane
cytoskeleton– PVM formation– shedding of merozoite surface
proteins– moving junction
• Force generation involves actin and unique Apicomplexan membrane associated myosin
• TRAP necessary for invasion and gliding motility
• acto-myosin motor = glideosome
Besteiro et al 2011, Cell. Microbiol. 13,797
• Initial Binding• merozoite surface proteins (eg. MSP-1)
• Reorientation (AMA-1) • Microneme Discharge and Junction Formation
• receptor-ligand interactions (adhesive proteins)• Rhoptry Discharge and Vacuole Formation
• clearing of host membrane proteins• moving junction formation (RON2/AMA-1)
• Parasite Entry• mediated by acto-myosin ‘glideosome’• shedding of merozoite surface
• Closure of PVM and Erythrocyte Membrane
Merozoite invasion: a complex and ordered process
• Merozoite invasion involves specific interactions with the host erythrocyte.
• The actively growing parasite places metabolic and other demands on the host cell.
• Ultrastructural modifica-tions are evident in the infected erythrocyte.
Permeability to metabolites is increased in the infected erythrocyte.
P. falciparum expresses ‘knobs’ on the surface of infected erythrocytes. Knobs mediate cytoadherence to endothelial cells.
Several Parasite Proteins Are Associated with Knobs
• KAHRP and PfEMP2 are believed to interact with the submembrane cytoskeleton of the host erythrocyte
• reorganization of the membrane skeleton may result in knob formation
• PfEMP1 crosses the erythrocyte membrane and is exposed on the surface
KAHRP = knob associated histidine rich proteinEMP = erythrocyte membrane protein
• family of ~60 var genes• conserved intracellular C-terminus
• acidic terminal segment (ATS)• binds cytoskeleton + KAHRP
• transmembrane domain• variable extracellular domain
composed of modules• 2-7 copies of Duffy-binding like
(DBL) domains • 5 sequence types ()
• 0-2 cys-rich interdomain (CIDR) regions
• participates in cytoadherence
PfEMP-1 Structure
• CD36• Ig super-family (eg,
ICAM-1)• endothelial protein C
receptor • chondroitin sulfate A• E-selectin• thrombospondin• hyaluronic acid
• Rosetting Receptors• CR-1• glycosaminoglycan• blood group A
Possible Host Receptors
Binding SitesDomain ReceptorCIDR CD36
DBL rosetting
DBL ICAM-1
DBL CSA
Roberts et al (1992) Nature 357:689• agglutinating anti-sera used to define antigenic types• antigenic variants obtained from a cloned parasite line
A high rate of antigenic variation is observed on the erythrocyte surface
• clones also exhibited different ICAM1/CD36 binding phenotypes
A switch rate of 2% per generation in absence of immune pressure.
Antigenic switching is accompanied by changes in binding phenotype
Binding Phenotypes Can Be Selected In Vivo
Chondroitin sulfate A (CSA) is a complex carbohydrate found on the surface of endothelial cells in the placenta.
Beeson et al (1999) JID 180:464
A Specific PfEMP1 Variant Binds to CSA
• VAR2CSA binds to CSA
• Found in most parasite strains
• Member of domain cassette (DC) 2
• (defined combination of domains always found together)
Claessens et al (2012) PNAS 109:E1772
Members of DC8 and DC13 associated with binding to brain
endothelial cells and severe malaria
Differential expression of var genes in organs
Montgomery et al (2007) Mol. Microbiol. 65, 959-967
Expression of Particular var Genes May Correlate with Disease
Manifestations and Virulence
Var Gene Expression• one var gene is expressed at a time
(allelic exclusion)
• specific expression site in nucleus
• repressor proteins bind promoters of non-expressed variants
• switching mechanism?
Borst and Genest (2006) Nature 439, 926
SUMMARY• parasite modifies host via exported proteins
– permeability changes– knobs + PfEMP-1
• PfEMP-1 participates in cytoadherence
• immune evasion accomplished through antigenic switching (var gene family)
• some var genes may correlate with specific disease manifestations and virulence
• maintain chronic infections