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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An intact innate and acquired immune response are essential for defeating systemic microbial infections. Recognition molecules, inflammatory cells, and the cytokines they produce are the principal means for host tissues to recognize invading microbes and to initiate intercellular communication between the innate and acquired immune systems. However, activation of host innate immunity may also occur in the absence of microbial recognition, through expression of internal "danger" signals produced by tissue ischemia and necrosis. ⋯ Although most patients survive the initial SIRS insult, these patients remain at increased risk of developing secondary or opportunistic infections because of the frequent onset of a compensatory anti-inflammatory response syndrome (CARS). The initial activation of the innate immune response often leads to macrophage deactivation, T-cell anergy, and the rapid apoptotic loss of lymphoid tissues, which all contribute to the development of this CARS syndrome and its associated morbidity and mortality. Initial efforts to treat the septic patient with anticytokine therapies directed at the SIRS response have been disappointing, and therapeutic efforts to modify the immune response during sepsis syndromes will require a more thorough understanding of the innate and acquired immune responses and the increased apoptosis in the lymphoid tissue.
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Effects of combined selective iNOS inhibition and peroxynitrite blockade during endotoxemia in pigs.
We investigated the effect of mercaptoethylguanidine (MEG, 3 mg kg(-1)h(-1)), a combined selective inducible nitric oxide synthase (iNOS) inhibitor, a peroxynitrite and oxygen free radical scavenger with cyclooxygenase-inhibitor properties on intestinal and hepatic perfusion, O2 exchange, and metabolism during long-term hyperdynamic porcine endotoxemia. MEG was started 12 h after onset of endotoxemia. At baseline and after 12, 18, and 24 h of endotoxemia, hepatic arterial and portal venous blood flow, ileal mucosal-arterial PCO2 gap, portal and hepatic venous lactate/pyruvate ratio, free glutathione (GSH), and 8-isoprostanes were measured. ⋯ MEG blunted the endotoxin-induced increase in expired NO and prevented the progressive fall in blood pressure without affecting cardiac output. It attenuated both systemic and regional venous acidosis without influencing the impairment of hepatosplanchnic metabolism nor counteracting the increase in GSH levels. In our model MEG failed to beneficially affect variables of oxidative stress.
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The morbidity and mortality from sepsis and multiple organ dysfunction syndrome (MODS) continues to be high. An increase in FcgammaRI+ (CD64+) monocytes was demonstrated in septic patients, and an association between cell number, their secretory activity, and poor outcome has been described. In the present investigation further characterization of CD64+ leukocytes has been attempted. ⋯ In healthy individuals CD64+ Neu and stimulated CD64+ Mo demonstrated increased ROS synthesis compared to matched CD64- cells (P = 0.001 and P = 0.042, respectively). Although ROS production by CD64+ leukocytes in sepsis was also increased compared to CD64- cells, significantly less ROS was generated compared to healthy subjects (P = 0.021). In conclusion, overexpression of CD64 on blood Mo and Neu from patients with sepsis and ARDS is associated with depressed PA and decreased oxidative response.
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Arginine stimulates lymphocyte function and is degraded by arginase, an enzyme that is abundantly present in red blood cells. Arginase impairs lymphocyte function and responses in vitro. Leakage of arginase from stored red blood cells may be involved in the lymphocyte dysfunction associated in allogenic blood transfusion. ⋯ This time dependent increase in arginase activity could be confirmed in the additional bags sampled (P < 0.0001, r = 0.78). The results for the first time show that arginase is released from red blood cells during storage for transfusion. Arginase infusion may play an important role in the immune suppression observed after blood transfusion.