Inflammation in the nervous system: The human perspective
Identifieur interne : 001136 ( Main/Exploration ); précédent : 001135; suivant : 001137Inflammation in the nervous system: The human perspective
Auteurs : Jan Bauer [Autriche] ; Helmut Rauschka [Autriche] ; Hans Lassmann [Autriche]Source :
- Glia [ 0894-1491 ] ; 2001-11.
English descriptors
- Teeft :
- Adhesion molecules, Allogeneic bone marrow transplantation, Bauer, Bone marrow, Bone marrow transplantation, Brain damage, Brain diseases, Brain lesions, Brain research institute, Brain tissue, Chemokines, Clonal, Clonal expansion, Costimulatory molecules, Cuzner, Cytokine, Cytotoxic, Cytotoxic granules, Demyelinating, Demyelinating lesions, Demyelinating process, Demyelination, Direct visualization, Disease activity, Donor cells, Early stages, Encephalomyelitis, Esiri, Experimental models, Glia, Hematogenous macrophages, Histocompatibility antigens, Human brain, Human brain diseases, Human disease, Immune, Immune surveillance, Immune system, Immunohistochemical study, Important factor, Important role, Inactive lesions, Inactive plaques, Ischemic tissue damage, Lassmann, Last years, Lesion, Lesional, Lesional activity, Local destruction, Luminal surface, Lymphocyte, Macrophage, Macrophage activation antigens, Major histocompatibility, Major role, Matrix metalloproteinases, Microglia, Microglia activation, Microglia cells, Minor myelin proteins, Multiple sclerosis, Multiple sclerosis brain, Multiple sclerosis lesions, Multiple sclerosis patients, Myelin, Myelin degradation products, Myelin destruction, Myelin oligodendrocyte glycoprotein, Myelin proteins, Myelin sheaths, Nervous system, Nervous system tissue, Neuroimmunol, Neurol, Neuron, Neuropathol, Neuropathol appl neurobiol, Oligodendrocyte, Oligodendrocyte destruction, Pathogenesis, Pathol, Primary demyelination, Proc natl acad, Radiation bone marrow chimeras, Raine, Receptor, Sclerosis, Sclerosis lesions, Small vessels, Sobel, Special issue, Structural damage, Target tissue, Thrombotic occlusion, Tissue damage, Tumor necrosis factor, Vessel wall, Viral model, Virus encephalitis, Virus infection, White matter, Woodroofe.
Abstract
Many basic aspects of brain inflammation, recently disclosed in experimental models, are reflected in the pathology of human inflammatory brain diseases. Examples include the key role of T lymphocytes in immune surveillance and in the regulation of the inflammatory response, the essential contributions of adhesion molecules, proinflammatory cytokines, chemokines, and proteases in the recruitment of inflammatory cells into the nervous tissue, the modulating effect of glia cells on the inflammatory process and the termination of T‐cell‐mediated inflammation by apoptotic cell death. Despite this progress in our understanding of the pathogenesis of brain inflammation, there are still major unresolved questions. Because of technical constraints, most of our knowledge on central nervous system inflammation so far relates to the role of a specific T‐cell subset, the so‐called T‐helper‐1 cells. Other T‐cell subsets, in particular cytotoxic class I MHC‐restricted T lymphocytes, however, appear to be of major importance in human disease. Furthermore, the detailed mechanisms, which are responsible for the profound differences in the patterns of tissue damage in different human inflammatory brain diseases, such as multiple sclerosis or various forms of virus encephalitis, are largely unresolved. We discuss the open questions to be addressed in the future, which, when answered, may help to design novel therapeutic strategies. GLIA 36:235–243, 2001. © 2001 Wiley‐Liss, Inc.
Url:
DOI: 10.1002/glia.1112
Affiliations:
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macrophages</term><term>Histocompatibility antigens</term><term>Human brain</term><term>Human brain diseases</term><term>Human disease</term><term>Immune</term><term>Immune surveillance</term><term>Immune system</term><term>Immunohistochemical study</term><term>Important factor</term><term>Important role</term><term>Inactive lesions</term><term>Inactive plaques</term><term>Ischemic tissue damage</term><term>Lassmann</term><term>Last years</term><term>Lesion</term><term>Lesional</term><term>Lesional activity</term><term>Local destruction</term><term>Luminal surface</term><term>Lymphocyte</term><term>Macrophage</term><term>Macrophage activation antigens</term><term>Major histocompatibility</term><term>Major role</term><term>Matrix metalloproteinases</term><term>Microglia</term><term>Microglia activation</term><term>Microglia cells</term><term>Minor myelin proteins</term><term>Multiple sclerosis</term><term>Multiple sclerosis brain</term><term>Multiple sclerosis lesions</term><term>Multiple sclerosis patients</term><term>Myelin</term><term>Myelin degradation products</term><term>Myelin destruction</term><term>Myelin oligodendrocyte glycoprotein</term><term>Myelin proteins</term><term>Myelin sheaths</term><term>Nervous system</term><term>Nervous system tissue</term><term>Neuroimmunol</term><term>Neurol</term><term>Neuron</term><term>Neuropathol</term><term>Neuropathol appl neurobiol</term><term>Oligodendrocyte</term><term>Oligodendrocyte destruction</term><term>Pathogenesis</term><term>Pathol</term><term>Primary demyelination</term><term>Proc natl acad</term><term>Radiation bone marrow chimeras</term><term>Raine</term><term>Receptor</term><term>Sclerosis</term><term>Sclerosis lesions</term><term>Small vessels</term><term>Sobel</term><term>Special issue</term><term>Structural damage</term><term>Target tissue</term><term>Thrombotic occlusion</term><term>Tissue damage</term><term>Tumor necrosis factor</term><term>Vessel wall</term><term>Viral model</term><term>Virus encephalitis</term><term>Virus infection</term><term>White matter</term><term>Woodroofe</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Many basic aspects of brain inflammation, recently disclosed in experimental models, are reflected in the pathology of human inflammatory brain diseases. Examples include the key role of T lymphocytes in immune surveillance and in the regulation of the inflammatory response, the essential contributions of adhesion molecules, proinflammatory cytokines, chemokines, and proteases in the recruitment of inflammatory cells into the nervous tissue, the modulating effect of glia cells on the inflammatory process and the termination of T‐cell‐mediated inflammation by apoptotic cell death. Despite this progress in our understanding of the pathogenesis of brain inflammation, there are still major unresolved questions. Because of technical constraints, most of our knowledge on central nervous system inflammation so far relates to the role of a specific T‐cell subset, the so‐called T‐helper‐1 cells. Other T‐cell subsets, in particular cytotoxic class I MHC‐restricted T lymphocytes, however, appear to be of major importance in human disease. Furthermore, the detailed mechanisms, which are responsible for the profound differences in the patterns of tissue damage in different human inflammatory brain diseases, such as multiple sclerosis or various forms of virus encephalitis, are largely unresolved. We discuss the open questions to be addressed in the future, which, when answered, may help to design novel therapeutic strategies. GLIA 36:235–243, 2001. © 2001 Wiley‐Liss, Inc.</div></front></TEI><affiliations><list><country><li>Autriche</li></country><region><li>Vienne (Autriche)</li></region><settlement><li>Vienne (Autriche)</li></settlement></list><tree><country name="Autriche"><noRegion><name sortKey="Bauer, Jan" sort="Bauer, Jan" uniqKey="Bauer J" first="Jan" last="Bauer">Jan Bauer</name></noRegion><name sortKey="Lassmann, Hans" sort="Lassmann, Hans" uniqKey="Lassmann H" first="Hans" last="Lassmann">Hans Lassmann</name><name sortKey="Lassmann, Hans" sort="Lassmann, Hans" uniqKey="Lassmann H" first="Hans" last="Lassmann">Hans Lassmann</name><name sortKey="Lassmann, Hans" sort="Lassmann, Hans" uniqKey="Lassmann H" first="Hans" last="Lassmann">Hans Lassmann</name><name sortKey="Rauschka, Helmut" sort="Rauschka, Helmut" uniqKey="Rauschka H" first="Helmut" last="Rauschka">Helmut Rauschka</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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