Effector CD4+ and CD8+ T‐cell mechanisms in the control of respiratory virus infections
Identifieur interne : 001B86 ( Main/Exploration ); précédent : 001B85; suivant : 001B87Effector CD4+ and CD8+ T‐cell mechanisms in the control of respiratory virus infections
Auteurs : Peter C. Doherty [États-Unis] ; David J. Topham [États-Unis] ; Ralph A. Tripp [États-Unis] ; Rhonda D. Cardin [États-Unis] ; James W. Brooks [États-Unis] ; Philip G. Stevenson [États-Unis]Source :
- Immunological Reviews [ 0105-2896 ] ; 1997-10.
English descriptors
- Teeft :
- Adoptive transfer, Aids patients, Antibody response, Antigen presentation, Braciale, Cell memory, Cells control, Chimera, Clonal, Clonal expansion, Ctlp, Ctlp pool, Ctlps, Ctls, Curr opin immunol, Cytokine, Cytokine secretion, Cytolytic mechanism, Cytotoxic, Dendritic cells, Disease process, Doherty, Effector, Effector function, Effector mechanism, Effector mechanisms, Epithelium, Gamma interferon, Host response, Immune, Immune response, Immunol, Infection, Infectious process, Infectious virus, Inflammatory, Inflammatory cells, Inflammatory process, Influenza, Influenza infection, Influenza mice, Influenza model, Influenza pneumonia, Influenza virus, Influenza virus infection, Interferon, Jexpmed, Jlmmunol, Jude research hospital, Jvirol, Knockout mice, Latent infection, Latent phase, Lymph, Lymph node, Lymph nodes, Lymphocyte, Lymphocyte clones, Lymphoid, Lymphoid tissue, Lytic, Lytic infection, Lytic phase, Major histocompatibility, Monoclonal antibody, Mouse, Much ofthe, Murine, Murine gammaherpesvirus, Negative strand, Node, Ofthe, Overall conclusion, Pathogen, Perforin, Persistent infections, Productive infection, Radiation chimeras, Regional lymph nodes, Respiratory epithelium, Respiratory infections, Respiratory tract, Sarawar, Sendai, Sendai virus, Sendai virus model, Sendai virus pneumonia, Spleen, Spleen cells, Stromal elements, Subset, Target cells, Topham, Tripp, Unpublished data, Viral, Viral immunity, Viral infections, Viral latency, Virol, Virus, Virus challenge, Virus clearance, Virus growth, Virus infection, Virus infections, Virus replication, Vivo, Vivo treatment.
Abstract
The rules for T‐cell‐mediated control of viruses that infect via the respiratory mucosae show both common themes and differences depending on the nature of the pathogen. Virus‐specific CD8+ cytotoxic T lymphocytes (CTLs) are the key effectors of virus clearance in mice infected with both negative strand RNA viruses (influenza and Sendai) and a DNA virus, the murine γ‐herpesvirus68 (MHV‐68). Recently completed experiments establish that these activated CD8+ T cells indeed operate primarily via contact‐dependent lysis, Perform‐mediated cytotoxicity seems to be the preferred mode, though a Fas‐based mechanism can apparently serve as an alternative mechanism. Immune CD4+ T cells functioning in the absence of the CD8+ subset cannot eliminate MHV‐68 from lung epithelial cells, are somewhat less efficient than the CD8+ CTLs at clearing the RNA viruses, and are generally ineffectual in mice that lack B lymphocytes. Though cytokine secretion by CD4+ and CD8+ T cells in the virus‐infected king may promote both T‐cell extravasation and macrophage activation, such processes are not alone sufficient to deal consistently with any d these infections. However, CD4+ T help is mandatory for an effective B‐cell response, and can operate lo promote the clonal expansion of virus‐specific CD8+ T cells in the lymph nodes and spleen. Furthermore, a concurrent CD4+ T‐cell response seems to be essential for maintaining continued CD8+ T‐cell surveillance and effector capacity through the persistent, latent phase of MHV‐68 infection in B cells. Thus, the evidence to date supports a very traditional view: CD8+ T cells function mainly as killers and the CD4+ T cells as helpers in these respiratory virus infections.
Url:
DOI: 10.1111/j.1600-065X.1997.tb01010.x
Affiliations:
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Tennessee</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Immunological Reviews</title><title level="j" type="alt">IMMUNOLOGICAL REVIEWS</title><idno type="ISSN">0105-2896</idno><idno type="eISSN">1600-065X</idno><imprint><biblScope unit="vol">159</biblScope><biblScope unit="issue">1</biblScope><biblScope unit="page" from="105">105</biblScope><biblScope unit="page" to="117">117</biblScope><biblScope unit="page-count">13</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="1997-10">1997-10</date></imprint><idno type="ISSN">0105-2896</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0105-2896</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Adoptive transfer</term><term>Aids patients</term><term>Antibody response</term><term>Antigen presentation</term><term>Braciale</term><term>Cell memory</term><term>Cells control</term><term>Chimera</term><term>Clonal</term><term>Clonal expansion</term><term>Ctlp</term><term>Ctlp pool</term><term>Ctlps</term><term>Ctls</term><term>Curr opin immunol</term><term>Cytokine</term><term>Cytokine secretion</term><term>Cytolytic mechanism</term><term>Cytotoxic</term><term>Dendritic cells</term><term>Disease process</term><term>Doherty</term><term>Effector</term><term>Effector function</term><term>Effector mechanism</term><term>Effector mechanisms</term><term>Epithelium</term><term>Gamma interferon</term><term>Host response</term><term>Immune</term><term>Immune response</term><term>Immunol</term><term>Infection</term><term>Infectious process</term><term>Infectious virus</term><term>Inflammatory</term><term>Inflammatory cells</term><term>Inflammatory process</term><term>Influenza</term><term>Influenza infection</term><term>Influenza mice</term><term>Influenza model</term><term>Influenza pneumonia</term><term>Influenza virus</term><term>Influenza virus infection</term><term>Interferon</term><term>Jexpmed</term><term>Jlmmunol</term><term>Jude research hospital</term><term>Jvirol</term><term>Knockout mice</term><term>Latent infection</term><term>Latent phase</term><term>Lymph</term><term>Lymph node</term><term>Lymph nodes</term><term>Lymphocyte</term><term>Lymphocyte clones</term><term>Lymphoid</term><term>Lymphoid tissue</term><term>Lytic</term><term>Lytic infection</term><term>Lytic phase</term><term>Major histocompatibility</term><term>Monoclonal antibody</term><term>Mouse</term><term>Much ofthe</term><term>Murine</term><term>Murine gammaherpesvirus</term><term>Negative strand</term><term>Node</term><term>Ofthe</term><term>Overall conclusion</term><term>Pathogen</term><term>Perforin</term><term>Persistent infections</term><term>Productive infection</term><term>Radiation chimeras</term><term>Regional lymph nodes</term><term>Respiratory epithelium</term><term>Respiratory infections</term><term>Respiratory tract</term><term>Sarawar</term><term>Sendai</term><term>Sendai virus</term><term>Sendai virus model</term><term>Sendai virus pneumonia</term><term>Spleen</term><term>Spleen cells</term><term>Stromal elements</term><term>Subset</term><term>Target cells</term><term>Topham</term><term>Tripp</term><term>Unpublished data</term><term>Viral</term><term>Viral immunity</term><term>Viral infections</term><term>Viral latency</term><term>Virol</term><term>Virus</term><term>Virus challenge</term><term>Virus clearance</term><term>Virus growth</term><term>Virus infection</term><term>Virus infections</term><term>Virus replication</term><term>Vivo</term><term>Vivo treatment</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">The rules for T‐cell‐mediated control of viruses that infect via the respiratory mucosae show both common themes and differences depending on the nature of the pathogen. Virus‐specific CD8+ cytotoxic T lymphocytes (CTLs) are the key effectors of virus clearance in mice infected with both negative strand RNA viruses (influenza and Sendai) and a DNA virus, the murine γ‐herpesvirus68 (MHV‐68). Recently completed experiments establish that these activated CD8+ T cells indeed operate primarily via contact‐dependent lysis, Perform‐mediated cytotoxicity seems to be the preferred mode, though a Fas‐based mechanism can apparently serve as an alternative mechanism. Immune CD4+ T cells functioning in the absence of the CD8+ subset cannot eliminate MHV‐68 from lung epithelial cells, are somewhat less efficient than the CD8+ CTLs at clearing the RNA viruses, and are generally ineffectual in mice that lack B lymphocytes. Though cytokine secretion by CD4+ and CD8+ T cells in the virus‐infected king may promote both T‐cell extravasation and macrophage activation, such processes are not alone sufficient to deal consistently with any d these infections. However, CD4+ T help is mandatory for an effective B‐cell response, and can operate lo promote the clonal expansion of virus‐specific CD8+ T cells in the lymph nodes and spleen. Furthermore, a concurrent CD4+ T‐cell response seems to be essential for maintaining continued CD8+ T‐cell surveillance and effector capacity through the persistent, latent phase of MHV‐68 infection in B cells. Thus, the evidence to date supports a very traditional view: CD8+ T cells function mainly as killers and the CD4+ T cells as helpers in these respiratory virus infections.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country></list><tree><country name="États-Unis"><noRegion><name sortKey="Doherty, Peter C" sort="Doherty, Peter C" uniqKey="Doherty P" first="Peter C." last="Doherty">Peter C. Doherty</name></noRegion><name sortKey="Brooks, James W" sort="Brooks, James W" uniqKey="Brooks J" first="James W" last="Brooks">James W. Brooks</name><name sortKey="Cardin, Rhonda D" sort="Cardin, Rhonda D" uniqKey="Cardin R" first="Rhonda D." last="Cardin">Rhonda D. Cardin</name><name sortKey="Stevenson, Philip G" sort="Stevenson, Philip G" uniqKey="Stevenson P" first="Philip G." last="Stevenson">Philip G. Stevenson</name><name sortKey="Topham, David J" sort="Topham, David J" uniqKey="Topham D" first="David J." last="Topham">David J. Topham</name><name sortKey="Tripp, Ralph A" sort="Tripp, Ralph A" uniqKey="Tripp R" first="Ralph A." last="Tripp">Ralph A. Tripp</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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