Integrating innate and adaptive immunity in the whole animal

Integrating innate and adaptive immunity in the whole animal

The mammalian defense system can respond to a variety of threats, but this capability is not just a simple alarm system for triggering antigen‐presenting cells and initiating cellular immunity. Instead, the body is at integrated system in which nearly every ceil type can relay the alarm through the...

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Bibliographic Details
Published in:Immunological reviews Vol. 169; no. 1; pp. 225 - 239
Main Authors: Lo, David, Feng, Lili, Li, Li, Carson, Monica J., Crowley, Mary, Pauza, Mary, Nguyen, Andrea, Reilly, Christina R.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-06-1999
Subjects:
Adaptation, Physiological
Animals
Cell Differentiation
Central Nervous System - immunology
Chemokine CCL11
Chemokines - immunology
Chemokines, CC
Cytokines - biosynthesis
Dendritic Cells - cytology
Dendritic Cells - immunology
Disease Models, Animal
Humans
Immunity
Inflammation - immunology
Islets of Langerhans - immunology
Lung - immunology
Mice
Mice, Knockout
Mice, Transgenic
Proto-Oncogene Proteins - immunology
T-Lymphocytes - immunology
Transcription Factor RelB
Transcription Factors - immunology
Online Access:Get full text
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Summary:The mammalian defense system can respond to a variety of threats, but this capability is not just a simple alarm system for triggering antigen‐presenting cells and initiating cellular immunity. Instead, the body is at integrated system in which nearly every ceil type can relay the alarm through the production of chemokines, which recruit specific inflammatory cells to the target tissues. This chemokine production is carefully regulated at several levels so that the kinetics and character of local tissue inflammation is tailored to the specific threat. First, the production of nuclear factor‐KB‐regulated chemokines can be modulated in non‐bone marrow‐derived cells through transcriptional repression mediated by RelB. RelB is also implicated in the differentiation of lymphoid dendritic cells, suggesting that this gene regulates the transition from acute inflammation to adaptive immunity. Second, tissue parenchymal cells, in their capacity as sentinel cells, are able to produce different patterns of chemokines in response to different alarm stimuli. Third, cells from different tissues also show distinct potentials for chemokine responses so that the non‐specific damage from inflammation might he avoided in some cases. Finally, the differentiation of T‐cell effectors allows for further regulation of local inflammation as their cytokines can also affect chemokine production. This integration of innate and adaptive immunity allows for both rapid responses and dynamic regulation of inflammation in vivo.
Bibliography:istex:E66C339099197B4762E7DEC72538E538618D3B18
ArticleID:IMR225
ark:/67375/WNG-CX6DHVNT-4
Acknowledgements
This research was supported by grants. AI29689, AI31583, and AI38375 from the National Institutes of Health, and grants from the Human Frontier Science Program and Juvenile Diabetes Foundation International.
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ISSN:0105-2896
1600-065X
DOI:10.1111/j.1600-065X.1999.tb01318.x