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Humoral immunity prevents clinical malaria during Plasmodium relapses without eliminating gametocytes
Plasmodium relapses are attributed to the activation of dormant liver-stage parasites and are responsible for a significant number of recurring malaria blood-stage infections. While characteristic of human infections caused by P. vivax and P. ovale, their relative contribution to malaria disease bur...
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| Published in: | PLoS Pathogens 2019, Vol.15 (9) |
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| Main Authors: | , , , , , , , , , , , , , , , |
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| container_title | PLoS Pathogens |
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| creator | Joyner, Chester J Brito, Cristiana F. A Saney, Celia L Joice Cordy, Regina Smith, Maren L Lapp, Stacey A Cabrera-Mora, Monica Kyu, Shuya Lackman, Nicolas Nural, Mustafa V DeBarry, Jeremy D Kissinger, Jessica C Styczynski, Mark P Lee, F. Eun-Hyung Lamb, Tracey J Galinski, Mary R |
| description | Plasmodium relapses are attributed to the activation of dormant liver-stage parasites and are responsible for a significant number of recurring malaria blood-stage infections. While characteristic of human infections caused by P. vivax and P. ovale, their relative contribution to malaria disease burden and transmission remains poorly understood. This is largely because it is difficult to identify 'bona fide' relapse infections due to ongoing transmission in most endemic areas. Here, we use the P. cynomolgi-rhesus macaque model of relapsing malaria to demonstrate that clinical immunity can form after a single sporozoite-initiated blood-stage infection and prevent illness during relapses and homologous reinfections. By integrating data from whole blood RNA-sequencing, flow cytometry, P. cynomolgi-specific ELISAs, and opsonic phagocytosis assays, we demonstrate that this immunity is associated with a rapid recall response by memory B cells that expand and produce anti-parasite IgG1 that can mediate parasite clearance of relapsing parasites. The reduction in parasitemia during relapses was mirrored by a reduction in the total number of circulating gametocytes, but importantly, the cumulative proportion of gametocytes increased during relapses. Overall, this study reveals that P. cynomolgi relapse infections can be clinically silent in macaques due to rapid memory B cell responses that help to clear asexual-stage parasites but still carry gametocytes. |
| doi_str_mv | 10.1371/journal.ppat.1007974 |
| format | report |
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A ; Saney, Celia L ; Joice Cordy, Regina ; Smith, Maren L ; Lapp, Stacey A ; Cabrera-Mora, Monica ; Kyu, Shuya ; Lackman, Nicolas ; Nural, Mustafa V ; DeBarry, Jeremy D ; Kissinger, Jessica C ; Styczynski, Mark P ; Lee, F. Eun-Hyung ; Lamb, Tracey J ; Galinski, Mary R</creator><creatorcontrib>Joyner, Chester J ; Brito, Cristiana F. A ; Saney, Celia L ; Joice Cordy, Regina ; Smith, Maren L ; Lapp, Stacey A ; Cabrera-Mora, Monica ; Kyu, Shuya ; Lackman, Nicolas ; Nural, Mustafa V ; DeBarry, Jeremy D ; Kissinger, Jessica C ; Styczynski, Mark P ; Lee, F. Eun-Hyung ; Lamb, Tracey J ; Galinski, Mary R</creatorcontrib><description>Plasmodium relapses are attributed to the activation of dormant liver-stage parasites and are responsible for a significant number of recurring malaria blood-stage infections. While characteristic of human infections caused by P. vivax and P. ovale, their relative contribution to malaria disease burden and transmission remains poorly understood. This is largely because it is difficult to identify 'bona fide' relapse infections due to ongoing transmission in most endemic areas. Here, we use the P. cynomolgi-rhesus macaque model of relapsing malaria to demonstrate that clinical immunity can form after a single sporozoite-initiated blood-stage infection and prevent illness during relapses and homologous reinfections. By integrating data from whole blood RNA-sequencing, flow cytometry, P. cynomolgi-specific ELISAs, and opsonic phagocytosis assays, we demonstrate that this immunity is associated with a rapid recall response by memory B cells that expand and produce anti-parasite IgG1 that can mediate parasite clearance of relapsing parasites. The reduction in parasitemia during relapses was mirrored by a reduction in the total number of circulating gametocytes, but importantly, the cumulative proportion of gametocytes increased during relapses. 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Eun-Hyung</creatorcontrib><creatorcontrib>Lamb, Tracey J</creatorcontrib><creatorcontrib>Galinski, Mary R</creatorcontrib><title>Humoral immunity prevents clinical malaria during Plasmodium relapses without eliminating gametocytes</title><title>PLoS Pathogens</title><description>Plasmodium relapses are attributed to the activation of dormant liver-stage parasites and are responsible for a significant number of recurring malaria blood-stage infections. While characteristic of human infections caused by P. vivax and P. ovale, their relative contribution to malaria disease burden and transmission remains poorly understood. This is largely because it is difficult to identify 'bona fide' relapse infections due to ongoing transmission in most endemic areas. Here, we use the P. cynomolgi-rhesus macaque model of relapsing malaria to demonstrate that clinical immunity can form after a single sporozoite-initiated blood-stage infection and prevent illness during relapses and homologous reinfections. By integrating data from whole blood RNA-sequencing, flow cytometry, P. cynomolgi-specific ELISAs, and opsonic phagocytosis assays, we demonstrate that this immunity is associated with a rapid recall response by memory B cells that expand and produce anti-parasite IgG1 that can mediate parasite clearance of relapsing parasites. The reduction in parasitemia during relapses was mirrored by a reduction in the total number of circulating gametocytes, but importantly, the cumulative proportion of gametocytes increased during relapses. Overall, this study reveals that P. cynomolgi relapse infections can be clinically silent in macaques due to rapid memory B cell responses that help to clear asexual-stage parasites but still carry gametocytes.</description><subject>B cells</subject><subject>Behavior</subject><subject>Development and progression</subject><subject>Disease transmission</subject><subject>Health aspects</subject><subject>Immunity (Physiology)</subject><subject>Immunoglobulin G</subject><subject>Infection</subject><subject>Inflammation</subject><subject>Liver</subject><subject>Malaria</subject><subject>Medical research</subject><subject>Plasmodium (Protozoa)</subject><subject>Prevention</subject><subject>Recurrence (Disease)</subject><subject>RNA</subject><issn>1553-7366</issn><fulltext>true</fulltext><rsrctype>report</rsrctype><creationdate>2019</creationdate><recordtype>report</recordtype><sourceid/><recordid>eNqVi0tOAzEQRL0IEoHkBix8gQxueT6wjBAoSxbsUcvTM-mobY_8AeX2DBIXQLUo6dUrpR7ANGAHeLzEmgJKsyxYGjBmeB7ajdpC19nDYPv-Vt3lfDGmBQv9VtGp-phQNHtfA5erXhJ9UShZO-HAbp08CiZGPdbEYdbvgtnHkavXiQSXTFl_cznHWjQJew5Yfr0ZPZXoroXyTt1MKJn2f32vmrfXj5fTYUahTw5TLAndmpE8uxho4pUfewPtk-k6sP8-_ADpn1hj</recordid><startdate>20190919</startdate><enddate>20190919</enddate><creator>Joyner, Chester J</creator><creator>Brito, Cristiana F. 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A</au><au>Saney, Celia L</au><au>Joice Cordy, Regina</au><au>Smith, Maren L</au><au>Lapp, Stacey A</au><au>Cabrera-Mora, Monica</au><au>Kyu, Shuya</au><au>Lackman, Nicolas</au><au>Nural, Mustafa V</au><au>DeBarry, Jeremy D</au><au>Kissinger, Jessica C</au><au>Styczynski, Mark P</au><au>Lee, F. Eun-Hyung</au><au>Lamb, Tracey J</au><au>Galinski, Mary R</au><format>book</format><genre>unknown</genre><ristype>RPRT</ristype><atitle>Humoral immunity prevents clinical malaria during Plasmodium relapses without eliminating gametocytes</atitle><jtitle>PLoS Pathogens</jtitle><date>2019-09-19</date><risdate>2019</risdate><volume>15</volume><issue>9</issue><issn>1553-7366</issn><abstract>Plasmodium relapses are attributed to the activation of dormant liver-stage parasites and are responsible for a significant number of recurring malaria blood-stage infections. While characteristic of human infections caused by P. vivax and P. ovale, their relative contribution to malaria disease burden and transmission remains poorly understood. This is largely because it is difficult to identify 'bona fide' relapse infections due to ongoing transmission in most endemic areas. Here, we use the P. cynomolgi-rhesus macaque model of relapsing malaria to demonstrate that clinical immunity can form after a single sporozoite-initiated blood-stage infection and prevent illness during relapses and homologous reinfections. By integrating data from whole blood RNA-sequencing, flow cytometry, P. cynomolgi-specific ELISAs, and opsonic phagocytosis assays, we demonstrate that this immunity is associated with a rapid recall response by memory B cells that expand and produce anti-parasite IgG1 that can mediate parasite clearance of relapsing parasites. The reduction in parasitemia during relapses was mirrored by a reduction in the total number of circulating gametocytes, but importantly, the cumulative proportion of gametocytes increased during relapses. Overall, this study reveals that P. cynomolgi relapse infections can be clinically silent in macaques due to rapid memory B cell responses that help to clear asexual-stage parasites but still carry gametocytes.</abstract><pub>Public Library of Science</pub><doi>10.1371/journal.ppat.1007974</doi></addata></record> |
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| identifier | ISSN: 1553-7366 |
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| language | eng |
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| source | Publicly Available Content Database; PubMed Central |
| subjects | B cells Behavior Development and progression Disease transmission Health aspects Immunity (Physiology) Immunoglobulin G Infection Inflammation Liver Malaria Medical research Plasmodium (Protozoa) Prevention Recurrence (Disease) RNA |
| title | Humoral immunity prevents clinical malaria during Plasmodium relapses without eliminating gametocytes |
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