Erythrocyte-binding antigens of Plasmodium falciparum are targets of human inhibitory antibodies and function to evade naturally acquired immunity

Abs that inhibit Plasmodium falciparum invasion of erythrocytes form an important component of human immunity against malaria, but key target Ags are largely unknown. Phenotypic variation by P. falciparum mediates the evasion of inhibitory Abs, contributing to the capacity of P. falciparum to cause...

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Veröffentlicht in:	The Journal of immunology (1950) 2013-07, Vol.191 (2), p.785-794
Hauptverfasser:	Persson, Kristina E M, Fowkes, Freya J I, McCallum, Fiona J, Gicheru, Nimmo, Reiling, Linda, Richards, Jack S, Wilson, Danny W, Lopaticki, Sash, Cowman, Alan F, Marsh, Kevin, Beeson, James G
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Schlagworte:	Adolescent Adult Aged Aged, 80 and over Antibodies, Protozoan - blood Antibodies, Protozoan - immunology Antigens, Protozoan - genetics Antigens, Protozoan - immunology Carrier Proteins - genetics Carrier Proteins - immunology Child Child, Preschool Erythrocytes - metabolism Erythrocytes - parasitology Female Gene Knockout Techniques Genetic Variation Humans Immune Evasion Malaria, Falciparum - blood Malaria, Falciparum - immunology Malaria, Falciparum - parasitology Male Middle Aged Plasmodium falciparum Plasmodium falciparum - immunology Protozoan Proteins - genetics Protozoan Proteins - immunology Young Adult
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container_end_page	794
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container_title	The Journal of immunology (1950)
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creator	Persson, Kristina E M Fowkes, Freya J I McCallum, Fiona J Gicheru, Nimmo Reiling, Linda Richards, Jack S Wilson, Danny W Lopaticki, Sash Cowman, Alan F Marsh, Kevin Beeson, James G
description	Abs that inhibit Plasmodium falciparum invasion of erythrocytes form an important component of human immunity against malaria, but key target Ags are largely unknown. Phenotypic variation by P. falciparum mediates the evasion of inhibitory Abs, contributing to the capacity of P. falciparum to cause repeat and chronic infections. However, Ags involved in mediating immune evasion have not been defined, and studies of the function of human Abs are limited. In this study, we used novel approaches to determine the importance of P. falciparum erythrocyte-binding Ags (EBAs), which are important invasion ligands, as targets of human invasion-inhibitory Abs and define their role in contributing to immune evasion through variation in function. We evaluated the invasion-inhibitory activity of acquired Abs from malaria-exposed children and adults from Kenya, using P. falciparum with disruption of genes encoding EBA140, EBA175, and EBA181, either individually or combined as EBA140/EBA175 or EBA175/EBA181 double knockouts. Our findings provide important new evidence that variation in the expression and function of the EBAs plays an important role in evasion of acquired Abs and that a substantial amount of phenotypic diversity results from variation in expression of different EBAs that contributes to immune evasion by P. falciparum. All three EBAs were identified as important targets of naturally acquired inhibitory Abs demonstrated by differential inhibition of parental parasites greater than EBA knockout lines. This knowledge will help to advance malaria vaccine development and suggests that multiple invasion ligands need to be targeted to overcome the capacity of P. falciparum for immune evasion.
doi_str_mv	10.4049/jimmunol.1300444
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Phenotypic variation by P. falciparum mediates the evasion of inhibitory Abs, contributing to the capacity of P. falciparum to cause repeat and chronic infections. However, Ags involved in mediating immune evasion have not been defined, and studies of the function of human Abs are limited. In this study, we used novel approaches to determine the importance of P. falciparum erythrocyte-binding Ags (EBAs), which are important invasion ligands, as targets of human invasion-inhibitory Abs and define their role in contributing to immune evasion through variation in function. We evaluated the invasion-inhibitory activity of acquired Abs from malaria-exposed children and adults from Kenya, using P. falciparum with disruption of genes encoding EBA140, EBA175, and EBA181, either individually or combined as EBA140/EBA175 or EBA175/EBA181 double knockouts. Our findings provide important new evidence that variation in the expression and function of the EBAs plays an important role in evasion of acquired Abs and that a substantial amount of phenotypic diversity results from variation in expression of different EBAs that contributes to immune evasion by P. falciparum. All three EBAs were identified as important targets of naturally acquired inhibitory Abs demonstrated by differential inhibition of parental parasites greater than EBA knockout lines. 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Phenotypic variation by P. falciparum mediates the evasion of inhibitory Abs, contributing to the capacity of P. falciparum to cause repeat and chronic infections. However, Ags involved in mediating immune evasion have not been defined, and studies of the function of human Abs are limited. In this study, we used novel approaches to determine the importance of P. falciparum erythrocyte-binding Ags (EBAs), which are important invasion ligands, as targets of human invasion-inhibitory Abs and define their role in contributing to immune evasion through variation in function. We evaluated the invasion-inhibitory activity of acquired Abs from malaria-exposed children and adults from Kenya, using P. falciparum with disruption of genes encoding EBA140, EBA175, and EBA181, either individually or combined as EBA140/EBA175 or EBA175/EBA181 double knockouts. Our findings provide important new evidence that variation in the expression and function of the EBAs plays an important role in evasion of acquired Abs and that a substantial amount of phenotypic diversity results from variation in expression of different EBAs that contributes to immune evasion by P. falciparum. All three EBAs were identified as important targets of naturally acquired inhibitory Abs demonstrated by differential inhibition of parental parasites greater than EBA knockout lines. This knowledge will help to advance malaria vaccine development and suggests that multiple invasion ligands need to be targeted to overcome the capacity of P. falciparum for immune evasion.</abstract><cop>United States</cop><pmid>23776178</pmid><doi>10.4049/jimmunol.1300444</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adolescent Adult Aged Aged, 80 and over Antibodies, Protozoan - blood Antibodies, Protozoan - immunology Antigens, Protozoan - genetics Antigens, Protozoan - immunology Carrier Proteins - genetics Carrier Proteins - immunology Child Child, Preschool Erythrocytes - metabolism Erythrocytes - parasitology Female Gene Knockout Techniques Genetic Variation Humans Immune Evasion Malaria, Falciparum - blood Malaria, Falciparum - immunology Malaria, Falciparum - parasitology Male Middle Aged Plasmodium falciparum Plasmodium falciparum - immunology Protozoan Proteins - genetics Protozoan Proteins - immunology Young Adult
title	Erythrocyte-binding antigens of Plasmodium falciparum are targets of human inhibitory antibodies and function to evade naturally acquired immunity
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