Jelle Gerretsen

Inflammation-induced increases in plasma endocan levels are associated with endothelial dysfunction in humans in vivo.

ABSTRACT Although endothelial dysfunction is central to the pathogenesis of sepsis, no specific and clinically applicable marker for endothelial dysfunction is currently available. Endocan, a proteoglycan excreted by endothelial cells in response to inflammatory cytokines, may serve as such a marker. Our objective was to investigate the kinetics of endocan and its relationship with inflammation-induced endothelial dysfunction during experimental human endotoxemia. Endothelial function was assessed in 17 healthy male volunteers before and 4 h after the administration of 2 ng/kg lipopolysaccharide (LPS) by determination of the vasodilatory response of forearm blood vessels to intra-arterial infusion of endothelium-dependent (acetylcholine) or endothelium-independent (nitroglycerin/sodium nitroprusside) vasodilators using venous occlusion plethysmography. Plasma levels of endocan, inflammatory cytokines, intercellular adhesion molecule (ICAM), and vascular cell adhesion molecule (VCAM) were measured, and correlations with endothelial dysfunction were explored. Plasma levels of all measured cytokines, endocan, ICAM, and VCAM concentrations significantly increased after LPS administration. Furthermore, LPS administration resulted in a significantly blunted response to acetylcholine (mean ± SD increase in forearm blood flow [FBF] of 383% ± 320% before LPS vs. 173% ± 134% after LPS, P = 0.03), whereas the response to nitroglycerin/sodium nitroprusside was not affected (mean ± SD increase in FBF of 174% ± 120% before LPS vs. 110% ± 82% after LPS, P = 0.11). Furthermore, there was a significant correlation between the increase in plasma endocan levels and the attenuation of vasodilatory responses to acetylcholine (r = −0.48, P < 0.05). No correlation existed between plasma levels of ICAM or VCAM and the attenuation of the acetylcholine-induced vasodilatory response. Endocan levels are related to endothelial dysfunction in humans in vivo during systemic inflammation evoked by experimental endotoxemia. Therefore, this study suggests that endocan could be a novel marker of endothelial dysfunction in inflammatory conditions.

BCG Vaccination Enhances the Immunogenicity of Subsequent Influenza Vaccination in Healthy Volunteers: A Randomized, Placebo-Controlled Pilot Study

BACKGROUND Influenza-related morbidity and mortality remain high. Seasonal vaccination is the backbone of influenza management but does not always result in protective antibody titers. Nonspecific effects of BCG vaccination related to enhanced function of myeloid antigen-presenting cells have been reported. We hypothesized that BCG vaccination could also enhance immune responses to influenza vaccination. METHODS Healthy volunteers received either live attenuated BCG vaccine (n = 20) or placebo (n = 20) in a randomized fashion, followed by intramuscular injection of trivalent influenza vaccine 14 days later. Hemagglutination-inhibiting (HI) antibodies and cellular immunity measured by ex vivo leukocyte responses were assessed. RESULTS In BCG-vaccinated subjects, HI antibody responses against the 2009 pandemic influenza A(H1N1) vaccine strain were significantly enhanced, compared with the placebo group, and there was a trend toward more-rapid seroconversion. Additionally, apart from enhanced proinflammatory leukocyte responses following BCG vaccination, nonspecific effects of influenza vaccination were also observed, with modulation of cytokine responses against unrelated pathogens. CONCLUSIONS BCG vaccination prior to influenza vaccination results in a more pronounced increase and accelerated induction of functional antibody responses against the 2009 pandemic influenza A(H1N1) vaccine strain. These results may have implications for the design of vaccination strategies and could lead to improvement of vaccination efficacy.

The Involvement of Danger-associated Molecular Patterns in the Development of Immunoparalysis in Cardiac Arrest Patients

Objectives: After cardiac arrest, patients are highly vulnerable toward infections, possibly due to a suppressed state of the immune system called “immunoparalysis.” We investigated if immunoparalysis develops following cardiac arrest and whether the release of danger-associated molecular patterns could be involved. Design: Observational study. Setting: ICU of a university medical center. Patients: Fourteen post–cardiac arrest patients treated with mild therapeutic hypothermia for 24 hours and 11 control subjects. Measurements and Main Results: Plasma cytokines showed highest levels within 24 hours after cardiac arrest and decreased during the next 2 days. By contrast, ex vivo production of cytokines interleukin-6, tumor necrosis factor-&agr;, and interleukin-10 by lipopolysaccharide-stimulated leukocytes was severely impaired compared with control subjects, with most profound effects observed at day 0, and only partially recovering afterward. Compared with incubation at 37°C, incubation at 32°C resulted in higher interleukin-6 and lower interleukin-10 production by lipopolysaccharide-stimulated leukocytes of control subjects, but not of patients. Plasma nuclear DNA, used as a marker for general danger-associated molecular pattern release, and the specific danger-associated molecular patterns (EN-RAGE and heat shock protein 70) were substantially higher in patients at days 0 and 1 compared with control subjects. Furthermore, plasma heat shock protein 70 levels were negatively correlated with ex vivo production of inflammatory mediators interleukin-6, tumor necrosis factor-&agr;, and interleukin-10. Extracellular newly identified receptor for advanced glycation end products-binding protein levels only showed a significant negative correlation with ex vivo production of interleukin-6 and tumor necrosis factor-&agr; and a borderline significant inverse correlation with interleukin-10. No significant correlations were observed between plasma nuclear DNA levels and ex vivo cytokine production. Interventions: None. Conclusions: Release of danger-associated molecular patterns during the first days after cardiac arrest is associated with the development of immunoparalysis. This could explain the increased susceptibility toward infections in cardiac arrest patients.

Circulating iFABP Levels as a marker of intestinal damage in trauma patients

ABSTRACT Both the initial trauma and the subsequent hemodynamic instability may contribute to intestinal damage, which is of great importance in (immunological) posttrauma complications. This study assesses intestinal damage using the biomarker intestinal Fatty Acid Binding Protein (iFABP) in trauma patients during the first days of their hospital admission and the risk factors involved. Plasma iFABP levels were measured in blood samples obtained from adult multiple trauma patients (n = 93) at the trauma scene by the Helicopter Emergency Medical Services, at arrival at the emergency department (ED), and at days 1, 3, 5, 7, 10, and 14 after trauma and related to injury severity and hemodynamic parameters. Plasma iFABP concentrations showed highest levels immediately after trauma at time points Helicopter Emergency Medical Services and ED. Nonsurvivors demonstrated higher iFABP levels at the ED compared with survivors. Furthermore, iFABP values at the ED correlated with Injury Severity Scores, and patients suffering from abdominal trauma demonstrated significantly higher iFABP concentrations in comparison with patients with other types of trauma or healthy controls. Also, patients presenting with a mean arterial pressure (MAP) less than 70 mmHg at the ED demonstrated significantly higher plasma iFABP concentrations in comparison with patients with a normal (70–99 mmHg) or high (>100 mmHg) MAP or healthy controls. Finally, patients with a low hemoglobin (Hb) (<80% of reference value) displayed significantly higher iFABP concentrations in comparison with patients with a normal Hb or healthy controls. Plasma iFABP levels, indicative of intestinal injury, are increased immediately after trauma in patients with abdominal trauma, low MAP, or low Hb and are related to the severity of the trauma. As intestinal injury is suggested to be related to late complications, such as multiorgan dysfunction syndrome or sepsis in trauma patients, strategies to prevent intestinal damage after trauma could be of benefit to these patients.

The effects of orally administered Beta-glucan on innate immune responses in humans, a randomized open-label intervention pilot-study

Rationale To prevent or combat infection, increasing the effectiveness of the immune response is highly desirable, especially in case of compromised immune system function. However, immunostimulatory therapies are scarce, expensive, and often have unwanted side-effects. β-glucans have been shown to exert immunostimulatory effects in vitro and in vivo in experimental animal models. Oral β-glucan is inexpensive and well-tolerated, and therefore may represent a promising immunostimulatory compound for human use. Methods We performed a randomized open-label intervention pilot-study in 15 healthy male volunteers. Subjects were randomized to either the β -glucan (n = 10) or the control group (n = 5). Subjects in the β-glucan group ingested β-glucan 1000 mg once daily for 7 days. Blood was sampled at various time-points to determine β-glucan serum levels, perform ex vivo stimulation of leukocytes, and analyze microbicidal activity. Results β-glucan was barely detectable in serum of volunteers at all time-points. Furthermore, neither cytokine production nor microbicidal activity of leukocytes were affected by orally administered β-glucan. Conclusion The present study does not support the use of oral β-glucan to enhance innate immune responses in humans. Trial Registration ClinicalTrials.gov NCT01727895

Short-term hyperoxia does not exert immunologic effects during experimental murine and human endotoxemia

Oxygen therapy to maintain tissue oxygenation is one of the cornerstones of critical care. Therefore, hyperoxia is often encountered in critically ill patients. Epidemiologic studies have demonstrated that hyperoxia may affect outcome, although mechanisms are unclear. Immunologic effects might be involved, as hyperoxia was shown to attenuate inflammation and organ damage in preclinical models. However, it remains unclear whether these observations can be ascribed to direct immunosuppressive effects of hyperoxia or to preserved tissue oxygenation. In contrast to these putative anti-inflammatory effects, hyperoxia may elicit an inflammatory response and organ damage in itself, known as oxygen toxicity. Here, we demonstrate that, in the absence of systemic inflammation, short-term hyperoxia (100% O2 for 2.5 hours in mice and 3.5 hours in humans) does not result in increased levels of inflammatory cytokines in both mice and healthy volunteers. Furthermore, we show that, compared with room air, hyperoxia does not affect the systemic inflammatory response elicited by administration of bacterial endotoxin in mice and man. Finally, neutrophil phagocytosis and ROS generation are unaffected by short-term hyperoxia. Our results indicate that hyperoxia does not exert direct anti-inflammatory effects and temper expectations of using it as an immunomodulatory treatment strategy.

Characterization of a model of systemic inflammation in humans in vivo elicited by continuous infusion of endotoxin

Investigating the systemic inflammatory response in patients with critical illness such as sepsis, trauma and burns is complicated due to uncertainties about the onset, duration and severity of the insult. Therefore, in vivo models of inflammation are essential to study the pathophysiology and to evaluate immunomodulatory therapies. Intravenous bolus administration of endotoxin to healthy volunteers is a well-established model of a short-lived systemic inflammatory response, characterized by increased plasma cytokine levels, flu-like symptoms and fever. In contrast, patients suffering from systemic inflammation are often exposed to inflammatory stimuli for an extended period of time. Therefore, continuous infusion of endotoxin may better reflect the kinetics of the inflammatory response encountered in these patients. Herein, we characterize a novel model of systemic inflammation elicited by a bolus infusion of 1 ng/kg, followed by a 3hr continuous infusion of 1 ng/kg/h of endotoxin in healthy volunteers, and compared it with models of bolus administrations of 1 and 2 ng/kg of endotoxin. The novel model was well-tolerated and resulted in a more pronounced increase in plasma cytokine levels with different kinetics and more prolonged symptoms and fever compared with the bolus-only models. Therefore, the continuous endotoxin infusion model provides novel insights into kinetics of the inflammatory response during continuous inflammatory stimuli and accommodates a larger time window to evaluate immunomodulating therapies.

A randomised trial on the effect of anti-platelet therapy on the systemic inflammatory response in human endotoxaemia

The use of acetylsalicylic acid (ASA) is associated with improved outcome in patients with sepsis, and P2Y12 inhibitors have been suggested to also have immunomodulatory effects. Therefore, we evaluated the effects of clinically relevant combinations of antiplatelet therapy on the immune response in experimental endotoxaemia in humans in vivo. Forty healthy subjects were randomised to seven days of placebo, placebo with ASA, ticagrelor and ASA, or clopidogrel and ASA treatment. Systemic inflammation was elicited at day seven by intravenous administration of Escherichia coli endotoxin. ASA treatment profoundly augmented the plasma concentration of pro-inflammatory cytokines, but did not affect anti-inflammatory cytokines. Addition of either P2Y12 antagonist to ASA did not affect any of the circulating cytokines, except for an attenuation of the ASA-induced increase in TNFα by ticagrelor. Systemic inflammation increased plasma adenosine, without differences between groups, and although P2Y12 inhibition impaired platelet reactivity, there was no correlation with cytokine responses.

Spleen-derived IFN-γ induces generation of PD-L1+-suppressive neutrophils during endotoxemia

The immune inhibitory checkpoint molecule programmed death ligand (PD‐L)‐1 is increasingly recognized as an important player in the immune suppression observed in patients with sepsis, but its role has mainly been studied in monocytes. In an earlier study, we demonstrated that experimental human endotoxemia results in mobilization of a subset of PD‐L1‐expressing neutrophils displaying an IFN‐γ‐induced transcriptome profile. Herein, we identify the source of IFN‐γ production during murine endotoxemia and its role in the generation of PD‐L1+‐suppressive neutrophils. We demonstrate that, similar to what we found in humans, murine endotoxemia results in the influx of a subset of PD‐L1+ neutrophils in the circulation, and incubation of mouse neutrophils with recombinant IFN‐γ profoundly increases PD‐L1 expression. Furthermore, administration of anti‐IFN‐γ abrogated the generation of PD‐L1+ neutrophils in endotoxemic mice. The critical involvement of the spleen is illustrated by the fact that splenectomy nullified circulating IFN‐γ levels and substantially reduced the abundance of PD‐L1+ neutrophils, whereas cotreatment with recombinant IFN‐γ resulted in complete restoration of generation of PD‐L1+ neutrophils in splenectomized mice. Finally, the functional importance of spleen‐derived PD‐L1+ neutrophils is exemplified by the finding that the profound decrease in T‐lymphocyte proliferation observed in cells from endotoxemic mice was attenuated in cells from splenectomized animals. We demonstrated that spleen‐derived IFN‐γ induces generation of PD‐L1+‐suppressive neutrophils, implying that the spleen is critically involved in immune suppression during inflammatory diseases such as sepsis. Furthermore, our data suggest that IFN‐γ plays a dual role by enhancing innate immunity and at the same time suppressing adaptive immune responses.

Increased Plasma Levels of Danger-Associated Molecular Patterns Are Associated With Immune Suppression and Postoperative Infections in Patients Undergoing Cytoreductive Surgery and Hyperthermic Intraperitoneal Chemotherapy

Introduction Danger-associated molecular patterns (DAMPs) can elicit immune responses and may subsequently induce an immune-suppressed state. Previous work showed that increased plasma levels of DAMPs are associated with immune suppression and increased susceptibility toward infections in trauma patients. Like trauma, major surgical procedures, such as cytoreductive surgery (CRS) combined with hyperthermic intraperitoneal chemotherapy (HIPEC), are also thought to cause profound DAMP release. Furthermore, the incidence of postoperative infections in these patients, ranging from 10 to 36%, is very high compared to that observed in patients undergoing other major surgical procedures. We hypothesized that the double hit of surgical trauma (CRS) in combination with HIPEC causes excessive DAMP release, which in turn contributes to the development of immune suppression. To investigate this, we assessed DAMP release in patients undergoing CRS-HIPEC, and investigated its relationship with immune suppression and postoperative infections. Methods In 20 patients undergoing CRS-HIPEC, blood was obtained at five time points: just before surgery (baseline), after CRS, after HIPEC, at ICU admission, and 1 day after surgery. Circulating levels of DAMPs [heat shock protein (HSP)70, high mobility group box (HMGB)1, S100A12, S100A8/S100A9, nuclear (n)DNA, mitochondrial (mt)DNA, lactate dehydrogenase (LDH), a marker of unscheduled cell death], and cytokines [tumor necrosis factor (TNF)α, IL-6, IL-8, IL-10, macrophage inflammatory protein (MIP)-1α, MIP-1β, and MCP-1] were measured. The extent of immune suppression was determined by measuring HLA-DR gene expression and ex vivo leukocytic cytokine production capacity. Results Plasma levels of DAMPs (maximum fold increases of HSP70: 2.1 [1.5–2.8], HMGB1: 5.9 [3.2–9.8], S100A8/S100A9: 3.6 [1.8–5.6], S100A12: 2.6 [1.8–4.3], nDNA 3.9 [1.0–10.8], LDH 1.7 [1.2–2.5]), and all measured cytokines increased profoundly following CRS-HIPEC. Evidence of immune suppression was already apparent during the procedure, illustrated by a decrease of HLA-DR expression compared with baseline (0.5-fold [0.3–0.9]) and diminished ex vivo pro-inflammatory cytokine production capacity. The increase in HMGB1 levels correlated with the decrease in HLA-DR expression (r = −0.46, p = 0.04), and peak HMGB1 concentrations were significantly higher in the five patients who went on to develop a postoperative infection (p = 0.04). Conclusion CRS-HIPEC is associated with profound DAMP release and immune suppression, and plasma HMGB1 levels are related with the occurrence of postoperative infections in these patients.