Changes in HDL-associated apolipoproteins relate to mortality in human sepsis and correlate to monocyte and platelet activation.

OBJECTIVE: Lipoproteins modulate vascular cell function in inflammation. In this study, we analyzed whether plasma concentrations of lipoproteins and apolipoproteins in human sepsis are related to patient survival and the activation of blood monocytes and platelets. DESIGN: Observational study. SETTING: Medical and surgical intensive care units (ICU) of a university hospital. PATIENTS: 151 consecutive patients after sepsis criteria had been met for the first time. INTERVENTIONS: None. MEASUREMENTS: Plasma lipoproteins, apolipoproteins, platelet CD62P-expression, monocyte HLA-DR-expression, SAPS II-scores (Simplified Acute Physiology Score) and 30-day-mortality were recorded. RESULTS: Total cholesterol, high-density-lipoprotein (HDL) and low-density-lipoprotein (LDL) cholesterol, apolipoprotein (apo)-AI and apo-B were all found to be significantly lower in non-survivors than in survivors. In contrast to other (apo)lipoproteins, apo-AI and HDL cholesterol further decreased in non-survivors during the ICU stay. Logistic regression analysis revealed apo-AI to be an independent predictor of 30-day-mortality. A significant inverse correlation was found for apo-AI/HDL-cholesterol and platelet activation. Later in the course of the disease, HLA-DR expression on monocytes correlated positively to apo-AI and apo-CI concentrations and inversely to the apo-E concentration. CONCLUSION: Low apo-AI is independently related to 30-day mortality in human sepsis and the decrease in apo-AI/HDL cholesterol correlates to increased platelet activation. Moreover, changes in apolipoproteins supposed to modulate lipopolysaccharide effects, such as apo-CI and apo-E, correlate to monocyte activation.

Plasma ceramide and lysophosphatidylcholine inversely correlate with mortality in sepsis patients.

Recent data indicate that ceramide (Cer) and lysophosphatidylcholine (LPC) regulate immune cell functions. Since these bioactive lipids are generated in blood plasma by inflammatory lipases, we hypothesized that they may be involved in the process of acute systemic sepsis. In order to provide support for this hypothesis, we analyzed the plasma levels of Cer and LPC by quantitative tandem mass spectrometry in 102 sepsis patients starting with the day at which the sepsis criteria were fulfilled for the first time, as well as on day 4 and day 11. The values were compared with 56 healthy controls and correlated with sepsis-related mortality within 30 days of study entry. Most Cer species were increased in sepsis patients, while all LPC species were markedly decreased. In addition, we determined the molar ratios with their precursor molecules sphingomyelin (SPM) and phosphatidylcholine (PC), which reflect the enzymatic reactions responsible for their formation. Species-specific as well as total Cer-SPM ratios were increased, whereas LPC-PC ratios were decreased in sepsis patients. The increased Cer-SPM ratios as well as the decreased LPC-PC ratios showed a strong predictive power for sepsis-related mortality. Together with existing data from in vitro experiments and animal models, the results provide the first ex vivo indication for the role of Cer and lysophospholipids in systemic inflammation in humans.