Shock : molecular, cellular, and systemic pathobiological aspects and therapeutic approaches : the official journal the Shock Society, the European Shock Society, the Brazilian Shock Society, the International Federation of Shock Societies
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Maintenance of the commensal bacteria that comprise the gut microbiome is essential to both gut and systemic health. Traumatic injury, such as burn, elicits a number of changes in the gut, including a shift in the composition of the microbiome (dysbiosis), increased gut leakiness, and bacterial translocation into the lymphatic system and bloodstream. These effects are believed to contribute to devastating secondary complications following burn, including pneumonia, acute respiratory distress syndrome, multi-organ failure, and septic shock. ⋯ Advanced age alone elicited 5-fold higher levels of alpha defensin-related sequence1 (Defa-rs1) in the ileum, but this increase was lost following burn. Comparison of bacterial genera abundance and AMP expression across treatment groups revealed distinct correlation patterns between AMPs and individual genera. Our results reveal that burn injury drives microbiome dysbiosis and altered AMP expression in an age-dependent fashion, and highlight potential mechanistic targets contributing to the increased morbidity and mortality observed in elderly burn patients.
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A declining selenium (Se) status constitutes a characteristic of critical illness and may affect disease course and survival. The dynamics of trauma-induced changes in biomarkers of Se status are poorly characterized, and an association with multiple organ failure (MOF) and mortality can be hypothesized. It was the aim of this study to investigate Se and selenoprotein P (SELENOP) concentrations in major trauma patients during the early posttraumatic period. ⋯ Very low Se and SELENOP concentrations occur fast after major trauma and are associated with poor survival odds. These findings support the notion that early Se substitution may constitute a meaningful adjuvant treatment strategy in trauma patients.
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Sepsis is a complex host response triggered by an infection, with the patient's immune system between hyper- and hypo-responsiveness being the main reason for the syndromes' development and propagation. Studies conducted in peripheral blood mononuclear cells uncovered an association between an impaired immunometabolism and the severity and outcome of the disease. With this prospective observational study, we aimed to evaluate the immunometabolic phenotype of monocytes and B cells and its association with the cell function. ⋯ The B cell compartment shifted toward antibody-producing subsets and elevated immunoglobulins within the first days. Our results provide evidence for the induction of a state of trained immunity in monocytes and an early but transient immunosuppressive phenotype accounting for peripheral sepsis-induced vulnerability to infections. B cells exhibit an unsustainable activation contributing to adaptive immunosuppression.
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The role of microvesicles (MVs) in transcellular signal transduction has been demonstrated in different studies. However, the potential modulatory role of MVs in fracture healing remains unclear. Therefore, we investigated the impact of plasma-derived MVs after a femoral fracture on cranial osteoblasts. ⋯ MVs seem to modulate the viability of osteoblasts but not to affect osteoblast differentiation. Further studies are warranted to determine the characteristics and interactions of MVs. Potentially, MVs might act as a diagnostic or therapeutic tool in cases of impairment of fracture healing.
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As tissue-resident cells in the lung, alveolar macrophages display remarkable heterogeneity and play a crucial role in the development and control of septic acute lung injury/acute respiratory distress syndrome (ALI/ARDS). Recent evidence suggests that α-ketoglutarate (α-KG) plays an important role in alternative activation of macrophage (M2) through metabolic and epigenetic reprogramming, and thus possesses anti-inflammatory properties. However, the underlying mechanisms of α-KG's effect on alveolar macrophage polarization and the potential effects of α-KG in ALI/ARDS remain unclear. ⋯ Moreover, our results showed that α-KG promoted IL-4-induced M2 polarization of MH-S cells by augmenting nuclear translocation of peroxisome proliferator-activated receptor γ (PPARγ) and increasing expression of relevant fatty acid metabolic genes. Finally, using an LPS-induced ALI/ARDS mouse model, we found that α-KG ameliorated the LPS-induced inflammation and lung pathological damage, as well as α-KG pretreated mice had better clinical scores compared with the LPS group. These findings reveal new mechanisms of α-KG in regulating macrophage polarization which may provide novel strategies for the prevention and treatment of inflammatory diseases, including sepsis and septic ALI/ARDS.