Dysregulation of immune monocyte responses during sepsis

Introduction Despite intense efforts, sepsis remains a serious clinical problem,accounting for thousands of deaths every year. Many findings have shown that immune dysfunction in septic patients plays a very important role. Thus, a better understanding of the basic immune alterations in sepsis is needed to appropriately direct therapy. Here we sequentially measured TNFα, IL-1B, IL-6 and IL-10 de novo synthesis by monocytes via multiparametric flow cytometry and monocyte expression of surface molecules that allow eff ective antigen presentation, in patients with severe sepsis and septic shock up to 12 days after admission. Methods Twenty-fi ve patients and 15 healthy, age and sex matched control subjects were enrolled. Each patient met the following criteria: an identifi able site of infection; two or more systemic inflammatory response syndrome criteria. Septic shock was defined as severe hypotension that lasts 1 hour, despite adequate fluid resuscitation and pharmacologic intervention with vasopressor agents. Cell stimulation PBMC from patients and controls were cultured for 18  hours in the presence of 100 ng/ml LPS and analysed by FACS to determine cell surface antigen expression and intracellular cytokine production. Results Cytokine production by monocytes during sepsis Monocytes from septic patients produced signifi cantly higher amounts of IL-1B, TNFα and IL-6, but not IL-10 as compared with controls. In addition, monocytes from patients with septic shock responded to LPS stimulation with increased IL-1B, TNFα and IL-6 production with respect to cells from patients without septic shock. Serum cytokine levels All cytokines were readily detectable in septic patients. Eff ect of sepsis on surface molecule expression Monocyte CD80, CD86 and HLA- DR expression was signifi cantly decreased in patients with sepsis as compared with healthy subjects. As opposed, the expression of ILT4 was signifi cantly increased in septic patients as compared with healthy controls. Conclusions It has been postulated that the immune response in sepsis represents the interplay of two contrasting phenomena: the early systemic infl ammatory response syndrome followed by the late appearance of a compensatory anti-infl ammatory response syndrome. The fi ndings reported here suggest a scenario, characterized by the contemporary development of an intense proinfl ammatory reaction and a marked alteration of the phenotype of antigen-presenting cells