Effector memory Th1 CD4 T cells are maintained in a mouse model of chronic malaria

Protection against malaria often decays in the absence of infection, suggesting that protective immunological memory depends on stimulation. Here we have used CD4(+) T cells from a transgenic mouse carrying a T cell receptor specific for a malaria protein, Merozoite Surface Protein-1, to investigate...

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Veröffentlicht in:	PLoS pathogens 2010-11, Vol.6 (11), p.e1001208-e1001208
Hauptverfasser:	Stephens, Robin, Langhorne, Jean
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Sprache:	eng
Schlagworte:	Adoptive Transfer Animal experimentation Animals Blotting, Western CD4-Positive T-Lymphocytes - immunology CD4-Positive T-Lymphocytes - parasitology CD4-Positive T-Lymphocytes - transplantation Disease Models, Animal DNA-Binding Proteins - physiology Enzyme-Linked Immunosorbent Assay Female Flow Cytometry Immunologic Memory - immunology Immunology Immunology/Immunity to Infections Infections Infectious Diseases/Protozoal Infections Infectious Diseases/Tropical and Travel-Associated Diseases Interferon-gamma - metabolism Interleukin-10 - metabolism Malaria Malaria - immunology Malaria - pathology Merozoite Surface Protein 1 - metabolism Mice Mice, Inbred BALB C Mice, Transgenic Physiological aspects Plasmodium chabaudi Plasmodium chabaudi - growth & development Plasmodium chabaudi - immunology Prevention Receptors, Antigen, T-Cell - physiology Receptors, Interleukin-7 - metabolism Rodents T cell receptors T cells Th1 Cells - immunology Tumor Necrosis Factor-alpha - metabolism
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description	Protection against malaria often decays in the absence of infection, suggesting that protective immunological memory depends on stimulation. Here we have used CD4(+) T cells from a transgenic mouse carrying a T cell receptor specific for a malaria protein, Merozoite Surface Protein-1, to investigate memory in a Plasmodium chabaudi infection. CD4(+) memory T cells (CD44(hi)IL-7Rα(+)) developed during the chronic infection, and were readily distinguishable from effector (CD62L(lo)IL-7Rα(-)) cells in acute infection. On the basis of cell surface phenotype, we classified memory CD4(+) T cells into three subsets: central memory, and early and late effector memory cells, and found that early effector memory cells (CD62L(lo)CD27(+)) dominated the chronic infection. We demonstrate a linear pathway of differentiation from central memory to early and then late effector memory cells. In adoptive transfer, CD44(hi) memory cells from chronically infected mice were more effective at delaying and reducing parasitemia and pathology than memory cells from drug-treated mice without chronic infection, and contained a greater proportion of effector cells producing IFN-γ and TNFα, which may have contributed to the enhanced protection. These findings may explain the observation that in humans with chronic malaria, activated effector memory cells are best maintained in conditions of repeated exposure.
doi_str_mv	10.1371/journal.ppat.1001208
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Here we have used CD4(+) T cells from a transgenic mouse carrying a T cell receptor specific for a malaria protein, Merozoite Surface Protein-1, to investigate memory in a Plasmodium chabaudi infection. CD4(+) memory T cells (CD44(hi)IL-7Rα(+)) developed during the chronic infection, and were readily distinguishable from effector (CD62L(lo)IL-7Rα(-)) cells in acute infection. On the basis of cell surface phenotype, we classified memory CD4(+) T cells into three subsets: central memory, and early and late effector memory cells, and found that early effector memory cells (CD62L(lo)CD27(+)) dominated the chronic infection. We demonstrate a linear pathway of differentiation from central memory to early and then late effector memory cells. 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Langhorne, Jean</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c664t-2e663910be22826d886d5319690f41416479f68a23596937c4a2dbd971350e53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2010</creationdate><topic>Adoptive Transfer</topic><topic>Animal experimentation</topic><topic>Animals</topic><topic>Blotting, Western</topic><topic>CD4-Positive T-Lymphocytes - immunology</topic><topic>CD4-Positive T-Lymphocytes - parasitology</topic><topic>CD4-Positive T-Lymphocytes - transplantation</topic><topic>Disease Models, Animal</topic><topic>DNA-Binding Proteins - physiology</topic><topic>Enzyme-Linked Immunosorbent Assay</topic><topic>Female</topic><topic>Flow Cytometry</topic><topic>Immunologic Memory - immunology</topic><topic>Immunology</topic><topic>Immunology/Immunity to Infections</topic><topic>Infections</topic><topic>Infectious Diseases/Protozoal Infections</topic><topic>Infectious Diseases/Tropical and Travel-Associated Diseases</topic><topic>Interferon-gamma - metabolism</topic><topic>Interleukin-10 - metabolism</topic><topic>Malaria</topic><topic>Malaria - immunology</topic><topic>Malaria - pathology</topic><topic>Merozoite Surface Protein 1 - metabolism</topic><topic>Mice</topic><topic>Mice, Inbred BALB C</topic><topic>Mice, Transgenic</topic><topic>Physiological aspects</topic><topic>Plasmodium chabaudi</topic><topic>Plasmodium chabaudi - growth & development</topic><topic>Plasmodium chabaudi - immunology</topic><topic>Prevention</topic><topic>Receptors, Antigen, T-Cell - physiology</topic><topic>Receptors, Interleukin-7 - metabolism</topic><topic>Rodents</topic><topic>T cell receptors</topic><topic>T cells</topic><topic>Th1 Cells - immunology</topic><topic>Tumor Necrosis Factor-alpha - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Stephens, Robin</creatorcontrib><creatorcontrib>Langhorne, Jean</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Gale In Context: Canada</collection><collection>Gale In Context: Science</collection><collection>MEDLINE - Academic</collection><collection>Environmental Sciences and Pollution Management</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 1: Biological Sciences & Living Resources</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 3: Aquatic Pollution & Environmental Quality</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>PubMed Central (Full Participant titles)</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>PLoS pathogens</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Stephens, Robin</au><au>Langhorne, Jean</au><au>Stevenson, Mary M.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effector memory Th1 CD4 T cells are maintained in a mouse model of chronic malaria</atitle><jtitle>PLoS pathogens</jtitle><addtitle>PLoS Pathog</addtitle><date>2010-11-01</date><risdate>2010</risdate><volume>6</volume><issue>11</issue><spage>e1001208</spage><epage>e1001208</epage><pages>e1001208-e1001208</pages><issn>1553-7374</issn><issn>1553-7366</issn><eissn>1553-7374</eissn><abstract>Protection against malaria often decays in the absence of infection, suggesting that protective immunological memory depends on stimulation. Here we have used CD4(+) T cells from a transgenic mouse carrying a T cell receptor specific for a malaria protein, Merozoite Surface Protein-1, to investigate memory in a Plasmodium chabaudi infection. CD4(+) memory T cells (CD44(hi)IL-7Rα(+)) developed during the chronic infection, and were readily distinguishable from effector (CD62L(lo)IL-7Rα(-)) cells in acute infection. On the basis of cell surface phenotype, we classified memory CD4(+) T cells into three subsets: central memory, and early and late effector memory cells, and found that early effector memory cells (CD62L(lo)CD27(+)) dominated the chronic infection. We demonstrate a linear pathway of differentiation from central memory to early and then late effector memory cells. In adoptive transfer, CD44(hi) memory cells from chronically infected mice were more effective at delaying and reducing parasitemia and pathology than memory cells from drug-treated mice without chronic infection, and contained a greater proportion of effector cells producing IFN-γ and TNFα, which may have contributed to the enhanced protection. These findings may explain the observation that in humans with chronic malaria, activated effector memory cells are best maintained in conditions of repeated exposure.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>21124875</pmid><doi>10.1371/journal.ppat.1001208</doi><oa>free_for_read</oa></addata></record>
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subjects	Adoptive Transfer Animal experimentation Animals Blotting, Western CD4-Positive T-Lymphocytes - immunology CD4-Positive T-Lymphocytes - parasitology CD4-Positive T-Lymphocytes - transplantation Disease Models, Animal DNA-Binding Proteins - physiology Enzyme-Linked Immunosorbent Assay Female Flow Cytometry Immunologic Memory - immunology Immunology Immunology/Immunity to Infections Infections Infectious Diseases/Protozoal Infections Infectious Diseases/Tropical and Travel-Associated Diseases Interferon-gamma - metabolism Interleukin-10 - metabolism Malaria Malaria - immunology Malaria - pathology Merozoite Surface Protein 1 - metabolism Mice Mice, Inbred BALB C Mice, Transgenic Physiological aspects Plasmodium chabaudi Plasmodium chabaudi - growth & development Plasmodium chabaudi - immunology Prevention Receptors, Antigen, T-Cell - physiology Receptors, Interleukin-7 - metabolism Rodents T cell receptors T cells Th1 Cells - immunology Tumor Necrosis Factor-alpha - metabolism
title	Effector memory Th1 CD4 T cells are maintained in a mouse model of chronic malaria
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