1. Burn Injury Triggered Dysfunction in Dendritic Cell Response to TLR9 Activation and Resulted in Skewed T Cell Functions
- Author
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Kyung Hee Kang, Camie W. Chan, Haitao Shen, Patrícia de Almeida, and Pamela Yao
- Subjects
Burn injury ,Critical Care and Emergency Medicine ,Mouse ,T-Lymphocytes ,lcsh:Medicine ,Lymphocyte Activation ,Mice ,T-Lymphocyte Subsets ,Molecular Cell Biology ,Cytotoxic T cell ,lcsh:Science ,Immune Response ,Burn Management ,Multidisciplinary ,hemic and immune systems ,Cell Differentiation ,Animal Models ,Signaling in Selected Disciplines ,Acquired immune system ,medicine.anatomical_structure ,Medicine ,Cytokines ,Female ,Cellular Types ,Inflammation Mediators ,Burns ,Research Article ,Signal Transduction ,T cell ,Immune Cells ,Immunology ,chemical and pharmacologic phenomena ,Dermatology ,Biology ,Immunological Signaling ,Immune system ,Model Organisms ,medicine ,Animals ,Innate immune system ,lcsh:R ,TLR9 ,Dendritic cell ,Dendritic Cells ,Th1 Cells ,Disease Models, Animal ,Toll-Like Receptor 9 ,Th17 Cells ,lcsh:Q ,Clinical Immunology ,Surgery ,Spleen - Abstract
Severe trauma such as burn injury is often associated with a systemic inflammatory syndrome characterized by a hyperactive innate immune response and suppressed adaptive immune function. Dendritic cells (DCs), which sense pathogens via their Toll-like receptors (TLRs), play a pivotal role in protecting the host against infections. The effect of burn injury on TLR-mediated DC function is a debated topic and the mechanism controlling the purported immunosuppressive response remains to be elucidated. Here we examined the effects of burn injury on splenic conventional DC (cDC) and plasmacytoid DC (pDC) responses to TLR9 activation. We demonstrate that, following burn trauma, splenic cDCs' cytokine production profile in response to TLR9 activation became anti-inflammatory dominant, with high production of IL-10 (>50% increase) and low production of IL-6, TNF-α and IL-12p70 (∼25-60% reduction). CD4+ T cells activated by these cDCs were defective in producing Th1 and Th17 cytokines. Furthermore, burn injury had a more accentuated effect on pDCs than on cDCs. Following TLR9 activation, pDCs displayed an immature phenotype with an impaired ability to secrete pro-inflammatory cytokines (IFN-α, IL-6 and TNF-α) and to activate T cell proliferation. Moreover, cDCs and pDCs from burn-injured mice had low transcript levels of TLR9 and several key molecules of the TLR signaling pathway. Although hyperactive innate immune response has been associated with severe injury, our data show to the contrary that DCs, as a key player in the innate immune system, had impaired TLR9 reactivity, an anti-inflammatory phenotype, and a dysfunctional T cell-priming ability. We conclude that burn injury induced impairments in DC immunobiology resulting in suppression of adaptive immune response. Targeted DC immunotherapies to promote their ability in triggering T cell immunity may represent a strategy to improve immune defenses against infection following burn injury.
- Published
- 2012