A common haplotype of the LBP gene predisposes to severe sepsis.

OBJECTIVE: To investigate whether common variants across the LBP gene contribute to the development of severe sepsis. Sepsis is the leading cause of multiple system organ dysfunction and death in critically ill patients. The lipopolysaccharide-binding protein is an acute-phase protein that plays a dominant role in the genesis of sepsis by initiating signal transduction pathways leading to the activation of the inflammatory host response. DESIGN: Prospectively enrolled case-control study of adults with severe sepsis. SETTING: A network of intensive care units. PATIENTS: We enrolled 175 patients meeting international definition criteria for severe sepsis and 357 population-based controls for comparison. INTERVENTIONS: Genotyping of the LBP gene was performed and disease association was tested. Serum lipopolysaccharide-binding protein levels were measured in patients and related to genetic variants. MEASUREMENTS AND MAIN RESULTS: A haplotype window analysis revealed that a common 4-SNP risk haplotype from the 5'-flanking region of the LBP gene, comprising positions -1978 to -763 from the transcription start site, was strongly associated with susceptibility to severe sepsis. Risk haplotype homozygous carriers had an increased risk for severe sepsis (odds ratio = 2.21; 95% confidence interval = 1.39-3.51; unadjusted p < .001; adjusted p < .025). Mean serum lipopolysaccharide-binding protein levels from inclusion to 7th day were significantly higher in homozygous carriers patients (130.1 [102.9-164.5] and 98.9 [79.7-122.8] microg/mL, respectively) than in noncarriers (101.6 [87.9-117.5] and 58.7 [51.4-67.2] microg/mL, respectively) (p = .046). CONCLUSIONS: This study strongly supports the involvement of LBP gene variants in severe sepsis susceptibility and reinforces the merit of further exploration of the role of lipopolysaccharide-binding protein in sepsis.

Angiotensin-converting enzyme insertion/deletion polymorphism is not associated with susceptibility and outcome in sepsis and acute respiratory distress syndrome.

OBJECTIVE: The insertion/deletion (I/D) of a 289 base pair Alu repeat sequence polymorphism in the angiotensin-converting enzyme gene (ACE) has been shown to predict susceptibility and outcome in the acute respiratory distress syndrome (ARDS). We hypothesized that the I/D polymorphism also confers susceptibility to sepsis and is a predisposing factor for morbidity and mortality of patients with severe sepsis. DESIGN AND SETTING: Case-control study including 212 consecutive patients fulfilling criteria for severe sepsis admitted to a Spanish network of postsurgical and critical care units, and 364 population-based controls. Susceptibility to severe sepsis was evaluated as primary outcome; mortality in severe sepsis, susceptibility to sepsis-induced ARDS, and mortality in sepsis-induced ARDS were examined as secondary outcomes. An additive model of inheritance in which patients were classified into three genotype groups (II, ID, and DD) was used for association testing. MEASUREMENTS AND RESULTS: Genotype and allele frequencies of I/D were distributed similarly in all septic, ARDS, and non-ARDS patients and in population-based controls. ACE I/D polymorphism was not associated with severe sepsis susceptibility or mortality. The ACE I/D polymorphism was associated neither with sepsis-induced ARDS susceptibility (p=0.895) or mortality (p=0.950). These results remained nonsignificant when adjusted for other covariates using multiple logistic regression analysis or Kaplan-Meier estimates of 28-day survival. CONCLUSIONS: Our data do not support an association of the ACE gene I/D polymorphism with susceptibility or mortality in severe sepsis or with sepsis-induced ARDS in Spanish patients.

A CXCL2 polymorphism is associated with better outcomes in patients with severe sepsis.

OBJECTIVE: Several studies have implicated the CXCL2 chemokine as a mediator in the development of sepsis. We hypothesized that a tandem repeat polymorphism (AC)n in the CXCL2 gene, previously associated with susceptibility to severe sepsis, contributes to morbidity and mortality in severe sepsis. DESIGN: Prospective, observational, genetic study of septic patients. SETTING: A network of Spanish postsurgical and critical care units. PATIENTS: A total of 183 critically ill patients fulfilling the International Sepsis Criteria for severe sepsis. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Patients were classified into three groups according to the presence of compound 24 +/- 1 (AC) repeat genotypes: homozygote 24 +/- 1 carriers (HC group), heterozygote 24 +/- 1 carriers (HTC), and non 24 +/- 1 carriers (NC group). Mortality, development of acute respiratory distress syndrome, and number of failing organs were determined for each group. Overall mortality was 46.4%. HC patients had a lower mortality (39.9%) than HTC (52.2%) and NC (72.7%) patients (trend test p = .018). This difference remained significant when using a multiple logistic regression analysis (p = .035). The presence of population stratification was ruled out, since 20 independent genomic control markers demonstrated homogeneity among groups. An exploratory analysis of the effect of acute respiratory distress syndrome on mortality showed a relative risk of 2.60 in the HC group (p = .0004), while in the nonhomozygote carriers (NHC) group the relative risk was 3.34 (p = .0001). CONCLUSIONS: Our data suggest that a tandem repeat polymorphism (AC)n at position -665 in the CXCL2 gene may be an independent predictor of mortality for severe sepsis. Additional studies are needed to confirm these results.