A proper innate inflammatory response is essential for prevention of the systemic inflammation associated with sepsis. BTLA is an immune-regulatory receptor demonstrated to be expressed not only on adaptive immune populations and have potent inhibitory effects on CD4(+) T cells but is also expressed on innate cell populations (CD11c(+) and CD11b(+) cells) and has been shown to diminish pathogen clearance following bacterial and parasite infection. The role of BTLA in sepsis and the mechanisms by which BTLA alters pathogen clearance, however, have not been addressed clearly. Here, we show that following acute experimental sepsis induction in mice (CLP), the number of infiltrating BTLA- and HVEM (the ligand for BTLA)-expressing macrophages, inflammatory monocytes, mature and immature DCs, and neutrophils increased in the peritoneum compared with sham surgery, suggesting that a high level of HVEM:BTLA interactions occurs between these cells at the site of septic insult. Given this, we evaluated BTLA(-/-) mice, 24 h post-CLP, and observed a marked increase in the degree of activation on these cell populations, as well as a reduction in peritoneal bacterial burden and IL-10 induction, and most importantly, BTLA(-/-) mice exhibited a higher rate of survival and protection from organ injury when compared with WT mice. Such changes were not restricted to experimental mice, as circulating BTLA+ and HVEM+ monocytes and HVEM+ granulocytes were increased in septic ICU patients, supporting a role for BTLA and/or HVEM as potential, novel diagnostic markers of innate immune response/status and as therapeutic targets of sepsis.
IntroductionSepsis is a deadly inflammatory condition that often leads to an immune suppressed state; however, the events leading to this state remain poorly understood. B and T lymphocyte attenuator (BTLA) is an immune-regulatory receptor shown to effectively inhibit CD4+ T-cell function. Therefore, our objectives were to determine: 1) if lymphocyte BTLA expression was altered in critically ill patients and experimentally induced septic mice, 2) whether augmented CD4+ T-cell BTLA expression was associated with poor septic patient outcomes, and 3) if BTLA expression affected the CD4+ T-cell apoptotic cell loss observed in the lymphoid organs of septic mice.MethodsChanges in CD4+ lymphocyte BTLA expression were compared with morbid event development in critically ill ICU patients (11 septic and 28 systemic inflammatory response syndrome subjects). Wild type and BTLA gene deficient mice were utilized to evaluate the expression and role of BTLA in septic lymphocyte apoptotic cell loss.ResultsThe observed septic ICU patients had a significantly higher percentage of peripheral blood BTLA+ CD4+ lymphocytes compared with critically ill non-septic individuals. Moreover, the non-septic patients with CD4+ T-cells that were greater than 80% BTLA+ were more susceptible to developing nosocomial infections. Additionally, in general, critically ill patients with CD4+ T-cells that were greater than 80% BTLA+ had longer hospital stays. Comparatively, circulating CD4+ T-cell and B-cell BTLA expression increased in septic mice, which associated with the increased septic loss of these cells. Finally, the loss of these cells and cellular apoptosis induction in primary and secondary lymphoid organs were reversed in BTLA deficient mice.ConclusionsAn increased BTLA+ CD4+ lymphocyte frequency in the observed critically ill non-septic patients was associated with a subsequent infection; therefore, BTLA may act as a biomarker to help determine nosocomial infection development. Additionally, BTLA expression contributed to primary and secondary lymphoid organ apoptotic cell loss in experimentally septic mice; thus, BTLA-induced apoptotic lymphocyte loss may be a mechanism for increased nosocomial infection risk in critically ill patients. This study had a relatively small human subject cohort; therefore, we feel these findings warrant future studies evaluating the use of BTLA as a critically ill patient nosocomial infection biomarker.
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