Increased circulating regulatory T cells (CD4+CD25+CD127−) contribute to lymphocyte anergy in septic shock patients
F Venet, CS Chung, H Kherouf, A Geeraert… - Intensive care …, 2009 - Springer
F Venet, CS Chung, H Kherouf, A Geeraert, C Malcus, F Poitevin, J Bohé, A Lepape, A Ayala…
Intensive care medicine, 2009•SpringerPurpose Sepsis syndrome represents the leading cause of death in intensive care unit.
Patients present features consistent with a decline in immune responsiveness potentially
contributing to mortality. We investigated whether CD4+ CD25+ regulatory T cells (Treg)
participate in the induction of lymphocyte anergy after sepsis. Method Observational study in
septic shock patients and experimental study in mice. Results We took advantage of the
recently described flow cytometric gating strategy using the measurement of CD25 and …
Patients present features consistent with a decline in immune responsiveness potentially
contributing to mortality. We investigated whether CD4+ CD25+ regulatory T cells (Treg)
participate in the induction of lymphocyte anergy after sepsis. Method Observational study in
septic shock patients and experimental study in mice. Results We took advantage of the
recently described flow cytometric gating strategy using the measurement of CD25 and …
Purpose
Sepsis syndrome represents the leading cause of death in intensive care unit. Patients present features consistent with a decline in immune responsiveness potentially contributing to mortality. We investigated whether CD4+CD25+ regulatory T cells (Treg) participate in the induction of lymphocyte anergy after sepsis.
Method
Observational study in septic shock patients and experimental study in mice.
Results
We took advantage of the recently described flow cytometric gating strategy using the measurement of CD25 and CD127 expressions for monitoring Treg (CD4+CD25+CD127−Foxp3+). In patients the increased circulating Treg percentage significantly correlated with a decreased lympho-proliferative response. In a murine model of sepsis mimicking these observations, the ex vivo downregulation of Foxp3 expression using siRNA was associated with a restoration of this response.
Conclusion
The relative increase in circulating Treg might play a role in lymphocyte anergy described after septic shock and represent a standardizable surrogate marker of declining proliferative capacity after sepsis.
Springer
