Laura G. Pologe scite author profile

The significant morbidity and mortality associated with Plasmodium falciparum malaria results, in part, from the sequestration of parasitized erythrocytes in postcapillary venules, which may protect the parasite from splenic clearance and contribute to the pathogenesis of cerebral malaria. This sequestration has been linked to the expression of parasite-induced knob structures on the surface of the infected erythrocyte which mediate the cytoadherence phenomenon. While knobs are necessary for cytoadherence, they are not sufficient, requiring both parasite- and host-encoded proteins. Spontaneous mutants of P. falciparum have been isolated from in vitro cultures which lack the ability to express knobs and fail to cytoadhere. A histidine-rich protein has been described which is associated with the knobby phenotype and may be a constituent of the knob. We now report the isolation of complementary DNA clones for a knob-associated histidine-rich protein (KAHRP) and demonstrate that in knobless mutants the gene for this protein has undergone a rearrangement, resulting in a deletion in the 3' coding sequence. Moreover, the chromosome to which the KAHRP gene maps is rearranged in these mutants, producing a telomeric location of the truncated gene. These observations explain the loss of expression of the messenger RNA and protein in such mutants and may explain the loss of the knob itself. The implications for the generation of spontaneous mutations in the parasite by this novel mechanism are discussed.

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Structural features of Plasmodium cytochrome b that may underlie susceptibility to 8-aminoquinolines and hydroxynaphthoquinones

Vaidya

Lashgari

Pologe

et al. 1993

Molecular and Biochemical Parasitology

112

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Safety, pharmacokinetics, and immunogenicity of a co-formulated cocktail of three human monoclonal antibodies targeting Ebola virus glycoprotein in healthy adults: a randomised, first-in-human phase 1 study

Sivapalasingam

Kamal

Slim

et al. 2018

The Lancet Infectious Diseases

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Primary structure and subcellular localization of the knob-associated histidine-rich protein of Plasmodium falciparum.

Pologe

Pavlovec

Shio

et al. 1987

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

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Plasmodiumfalciparum-infected erythrocytes bind to venular endothelial cells by means of electron-dense deformations (knobs) on the parasitized erythrocyte surface. The primary structure of a parasite-derived histidine-rich protein associated with the knob structure was deduced from cDNA sequence analysis. The 634 amino acid sequence is rich in lysine and histidine and contains three distinct, tandemly repeated domains. Indirect immunofluorescence, using affinity-purified monospecific antibodies directed against recombinant protein synthesized in Escherichia coli, localized the knob-associated histidine-rich protein to the membrane of knobby infected erythrocytes. Immunoelectron microscopy established that the protein is clustered on the cytoplasmic side of the erythrocyte membrane and is associated with the electron-dense knobs. A role for this histidine-rich protein in knob structure and cytoadherence is suggested based upon these data.

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Laura G. Pologe

Large deletions result from breakage and healing of P. falciparum chromosomes

A chromosomal rearrangement in a P. falciparum histidine-rich protein gene is associated with the knobless phenotype

Structural features of Plasmodium cytochrome b that may underlie susceptibility to 8-aminoquinolines and hydroxynaphthoquinones

Safety, pharmacokinetics, and immunogenicity of a co-formulated cocktail of three human monoclonal antibodies targeting Ebola virus glycoprotein in healthy adults: a randomised, first-in-human phase 1 study

Primary structure and subcellular localization of the knob-associated histidine-rich protein of Plasmodium falciparum.

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