Shed EBA-175 mediates red blood cell clustering that enhances malaria parasite growth and enables immune evasion

Paing, May M.; Salinas, Nichole D.; Adams, Yvonne; Oksman, Anna; Jensen, Anja T. R.; Goldberg, Daniel E.; Tolia, Niraj H.

doi:10.7554/elife.43224

Cited by 19 publications

(13 citation statements)

References 48 publications

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“…The erythrocyte invasion pathway of P. falciparum can be either sialic acid–dependent or sialic acid–independent ( 5 ). The receptors of the sialic acid–dependent pathway include GPA, GPB, and GPC, which are glycophorins recognized by the parasite EBA family members ( 86 , 87 , 88 , 89 , 90 , 91 ). The receptors of sialic acid–independent invasion are CR1 ( 52 ), CD147/Basigin ( 92 ), Kx ( 90 ), CD44 ( 93 ), and CD55 ( 49 ).…”

Section: Resultsmentioning

confidence: 99%

Protein Modification Characteristics of the Malaria Parasite Plasmodium falciparum and the Infected Erythrocytes

Wang

Jiang

Sang

et al. 2021

Molecular & Cellular Proteomics

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Malaria elimination is still pending on the development of novel tools that rely on a deep understanding of parasite biology. Proteins of all living cells undergo a myriad number of posttranslational modifications (PTMs) that are critical to multifarious life processes. An extensive proteome-wide dissection revealed a fine PTM map of most proteins in both Plasmodium falciparum, the causative agent of severe malaria, and the infected red blood cells. More than two-thirds of proteins of the parasite and its host cell underwent extensive and dynamic modification throughout the erythrocytic developmental stage. PTMs critically modulate the virulence factors involved in the host-parasite interaction and pathogenesis. Furthermore, P. falciparum stabilized the supporting proteins of erythrocyte origin by selective de-modification. Collectively, our multiple omic analyses, apart from having furthered a deep understanding of the systems biology of P. falciparum and malaria pathogenesis, provide a valuable resource for mining new antimalarial targets.

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Section: Resultsmentioning

confidence: 99%

Protein Modification Characteristics of the Malaria Parasite Plasmodium falciparum and the Infected Erythrocytes

Wang

Jiang

Sang

et al. 2021

Molecular & Cellular Proteomics

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“…The role of the EBA-175 protein has been shown to be critical for erythrocyte invasion, as antibodies raised against EBA-175 prevent binding to GpA in vitro [ 60 , 61 ]. EBA-175 triggers changes in the erythrocyte membrane [ 62 , 63 ], and the shedding of EBA-175 causes uninfected red blood cells to cluster or form rosette, which allows for immune evasion [ 64 ]. The host immune responses may explain the polymorphisms and diversifying selection observed in EBA-175 [ 65 ].…”

Section: Erythrocyte Invasion Mechanisms In Non- Plasmodmentioning

confidence: 99%

Alternative Invasion Mechanisms and Host Immune Response to Plasmodium vivax Malaria: Trends and Future Directions

et al. 2020

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Plasmodium vivax malaria is a neglected tropical disease, despite being more geographically widespread than any other form of malaria. The documentation of P. vivax infections in different parts of Africa where Duffy-negative individuals are predominant suggested that there are alternative pathways for P. vivax to invade human erythrocytes. Duffy-negative individuals may be just as fit as Duffy-positive individuals and are no longer resistant to P.vivax malaria. In this review, we describe the complexity of P. vivax malaria, characterize pathogenesis and candidate invasion genes of P. vivax, and host immune responses to P. vivax infections. We provide a comprehensive review on parasite ligands in several Plasmodium species that further justify candidate genes in P. vivax. We also summarize previous genomic and transcriptomic studies related to the identification of ligand and receptor proteins in P. vivax erythrocyte invasion. Finally, we identify topics that remain unclear and propose future studies that will greatly contribute to our knowledge of P. vivax.

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“…The role of the EBA-175 protein has been shown to be critical for erythrocyte invasion as antibodies raised against EBA-175 prevent binding to GpA in vitro [57,58]. EBA-175 triggers changes in the erythrocyte membrane [59,60] and shedding of EBA-175 causes uninfected red blood cells to cluster or form rosette that allows for immune evasion [61]. The host immune responses may explain the polymorphisms and diversifying selection observed in EBA-175 [62].…”

Section: Erythrocyte Invasion Mechanisms In Non-plasmodium Vivax 31 mentioning

confidence: 99%

Alternative Invasion Mechanisms and Host Immune Response to Plasmodium vivax Malaria: Trends and Future Directions

Kepple

Pestana

Tomida

et al. 2020

Preprint

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Plasmodium vivax malaria is a neglected tropical disease, despite being more geographically widespread than any other form of malaria. The documentation of P. vivax infections in different parts of Africa where Duffy-negative individuals are predominant suggested that there are alternative pathways for P. vivax to invade human erythrocytes. Duffy-negative individuals may be just as fit as Duffy-positive individuals and are no longer resistant to P. vivax malaria. In this review, we describe the complexity of P. vivax malaria, characterize pathogenesis and candidate invasion genes of P. vivax, and host immune responses to P. vivax infections. We provide a comprehensive review on parasite ligands in several Plasmodium species that further justify candidate genes in P. vivax. We also summarize previous genomic and transcriptomic studies related to the identification of ligand and receptor proteins in P. vivax erythrocyte invasion. Finally, we identify topics that remain unclear and propose future studies that will greatly contribute to our knowledge of P. vivax.

show abstract

Shed EBA-175 mediates red blood cell clustering that enhances malaria parasite growth and enables immune evasion

Cited by 19 publications

References 48 publications

Protein Modification Characteristics of the Malaria Parasite Plasmodium falciparum and the Infected Erythrocytes

Protein Modification Characteristics of the Malaria Parasite Plasmodium falciparum and the Infected Erythrocytes

Alternative Invasion Mechanisms and Host Immune Response to Plasmodium vivax Malaria: Trends and Future Directions

Alternative Invasion Mechanisms and Host Immune Response to Plasmodium vivax Malaria: Trends and Future Directions

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