Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Traumatic injury often results in profound immunopathology that can lead to immunosuppression, thereby increasing the morbidity and mortality due to sepsis. The isolation and partial characterization of an immunosuppressive glycopeptide (SAP) from serum of severely burned patients has previously been reported by our laboratory. Recently, this trauma peptide has also been identified in the serum of patients with multiple blunt trauma. This glycopeptide is capable of suppressing neutrophil chemotaxis, T-cell blastogenesis and the lysis of human erythrocytes. We demonstrate in this report that SAP inhibits interleukin 2 (IL-2) biosynthesis by mitogen-stimulated peripheral blood mononuclear cells. Peptide concentrations of 50 nmol and above significantly inhibited IL-2 production. Inhibition was not reduced by the addition of indomethacin or anti-PGE2 to cultures containing greater than 100 nmol of peptide, suggesting that inhibition is not entirely prostaglandin-mediated. Preliminary studies have shown that IL-2 suppression by SAP can be partially reversed by the addition of calcium ionophore. These results suggest a potential immunosuppressive mechanism of the trauma peptide in which T cell blastogenesis is inhibited by interference in IL-2 biosynthesis.
 ...
PMID:In vitro inhibition of IL-2 biosynthesis in activated human peripheral blood mononuclear cells by a trauma-induced glycopeptide. 210 88

Recent advances in endotoxin biochemistry, cell biology, and immunopathology are reviewed. Discussion is focused on the endotoxin-unresponsive C3H/HeJ mouse and the contributions the studies of this mouse have made to current concepts of the mechanisms of endotoxin action. The extension of the observations documented with this experimental model provide a firm foundation for productive future research into the precise role of bacterial endotoxins in the protection against, and exacerbation of, gram-negative bacterial sepsis.
 ...
PMID:Bacterial endotoxins and pathogenesis. 619 18

Although sepsis causes significant morbidity and mortality, its basic pathology is still not well understood. We investigated the inflammatory and physiologic alterations of non-lethal sepsis using cecal ligation and puncture (CLP), a model that induces peritonitis due to mixed intestinal flora, reproducing the complex immunology of sepsis. Groups of mice were subjected to CLP (25G needle) or sham surgery, had minimitters implanted to continuously monitor temperature and activity, and were sacrificed daily for 6 days. There was significant hypothermia (6-13 hrs post-surgery), and decreases in activity (to day 4) and weight (to day 3) but no mortality in the CLP group. Blood analyses of the CLP-treated mice showed reduced hemoglobin, platelets, lymphocytes, monocytes, and neutrophils, compared to sham animals. Both groups had nearly equivalent neutrophil influx into the peritoneum. Plasma and peritoneal G-CSF, IL-6, as well as the murine chemokines KC and MIP2-alpha were significantly higher in the CLP-treated mice at day 1. Plasma and peritoneal TNF were low (<70 pg/mL). While there was elevated IL-1beta in the peritoneum of the CLP-treated mice, this cytokine was not detected in the plasma in either treatment group. Cytokines were not detected in the pulmonary airspace of the CLP-treated mice and PMNs were not recruited to this site. Our data shows altered immunopathology in non-lethal sepsis with significant blood and cytokine alterations. Since there was 100% survival, the inflammatory response was appropriate and probably even protective.
 ...
PMID:Immunopathologic responses to non-lethal sepsis. 1044 92

Sepsis remains a serious clinical problem despite intense efforts to improve survival. Experimental animal models of sepsis have responded dramatically to immunotherapy blocking the activity of cytokines. Despite these preclinical successes, human clinical trials have not demonstrated any improvement in survival. We directly compared the mortality, morbidity, and immunopathology in two models of sepsis, one due to lipopolysaccharide (LPS) and the other to cecal ligation and puncture (CLP). BALB/c mice were injected intraperitoneally with 250 microg of LPS or subjected to CLP with an 18-gauge needle. Both models yielded similar mortality (> 85%) and morbidity. Additionally, neutropenia and lymphopenia developed in both groups. Plasma and peritoneal levels of cytokines (TNF, IL-1, IL-6, and the chemokines KC and MIP-2) were measured at 1.5, 4, and 8 h after challenge. LPS induced substantially higher levels of cytokines in both compartments with peak levels between 1.5 and 4 h that began to decline at 8 h. In contrast, cytokine levels in the CLP model were continuing to increase at the 8 h-time point and often exceeded the LPS-induced values at this time. Our data demonstrate that the LPS and CLP models have similar mortality but significant differences in the kinetics and magnitude of cytokine production. Immunotherapy for sepsis based on cytokine production after LPS challenge is misdirected because the LPS model does not accurately reproduce the cytokine profile of sepsis.
 ...
PMID:Comparison of the mortality and inflammatory response of two models of sepsis: lipopolysaccharide vs. cecal ligation and puncture. 1067 Aug 40

Polymorphonuclear neutrophils (PMNs) are essential in initiation and execution of the acute inflammatory response and subsequent resolution of fungal infection. PMNs, however, may act as double-edged swords, as the excessive release of oxidants and proteases may be responsible for injury to organs and fungal sepsis. To identify regulatory mechanisms that may balance PMN-dependent protection and immunopathology in fungal infections, the involvement of different TLR-activation pathways was evaluated on human PMNs exposed to the fungus Aspergillus fumigatus. Recognition of Aspergillus and activation of PMNs occurred through the involvement of distinct members of the TLR family, each likely activating specialized antifungal effector functions. By affecting the balance between fungicidal oxidative and nonoxidative mechanisms, pro- and anti-inflammatory cytokine production, and apoptosis vs necrosis, the different TLRs ultimately impacted on the quality of microbicidal activity and inflammatory pathology. Signaling through TLR2 promoted the fungicidal activity of PMNs through oxidative pathways involving extracellular release of gelatinases and proinflammatory cytokines while TLR4 favored the oxidative pathways through the participation of azurophil, myeloperoxidase-positive, granules and IL-10. This translated in vivo in the occurrence of different patterns of fungal clearance and inflammatory pathology. Both pathways were variably affected by signaling through TLR3, TLR5, TLR6, TLR7, TLR8, and TLR9. The ability of selected individual TLRs to restore antifungal functions in defective PMNs suggests that the coordinated outputs of activation of multiple TLRs may contribute to PMN function in aspergillosis.
 ...
PMID:TLRs govern neutrophil activity in aspergillosis. 1558 66

The specific systems and mechanisms affected by sleep deprivation that may perpetuate disease processes in humans still are speculative. In laboratory rats, prolonged sleep deprivation induces a state marked by abnormal control over indigenous bacteria that results in transient infections of internal tissues and eventual lethal septicemia. The present studies investigated changes in blood, serum, and bone marrow parameters that may provide diagnostic clues to immunopathology. Prolonged sleep deprivation was produced in rats by the disk-over-water method, a well-established and selective means that does not interfere with normal waking behaviors. Measurements included bone and blood differential white blood cell counts, multiple serum cytokines and chemokines, several major Ig classes and subclasses, and serum endotoxin concentrations. The results indicated mild, regenerative neutrophilia in sleep-deprived rats, initially accompanied by immature neutrophils and later by monocytosis. The corresponding serum cytokine profile revealed an evolving proinflammatory state, particularly by high incidence of interleukin-1beta, implicating mononuclear phagocytes and resident tissue cells as main intermediary sources. In addition, multiple serum Ig classes were increased by sleep deprivation without experimental administration of an exogenous antigen. Despite this immune activation, there was failure to eradicate invading bacteria and toxins, suggesting competing anti-inflammatory processes or interference with immune effector functions during sleep deprivation. Nearly all of the immune-related events that emerged as responses to sleep deprivation have been implicated as etiological or provocative factors in other disease processes and may provide means by which sleep deprivation as a risk factor in disease may become understood.
 ...
PMID:Clinical assessment of blood leukocytes, serum cytokines, and serum immunoglobulins as responses to sleep deprivation in laboratory rats. 1594 73

Bacterial translocation (BT) is defined as the passage of indigenous bacteria colonizing the intestine through the epithelial mucosa to the mesenteric lymph nodes and other sites. It can even cause the development of lethal sepsis. BT is being studied extensively, most research being conducted on animal, mostly murine, models. The cause of BT is not well known. Despite advances in antimicrobial therapy, the mortality rate associated with bacteremia is still high, and sepsis can often originate from the patient's own intestinal flora. Consequently, a better understanding of the mechanisms of BT as well as mechanisms operating to prevent bacteria from translocating from the gastrointestinal tract may provide more logical treatment of particular patients. BT may be promoted by immunosuppression (probably one of the most important factors causing the increase in BT), disturbances in the normal ecology of the gastrointestinal tract, allowing some indigenous bacteria to overgrow others, and by mucosal injuries. This article discusses the potential role of various factors responsible for BT and the relationship between BT and neoplastic disease. It also emphasizes the significance of the immune system, which appears to play a role in the ontogeny of gut-associated lymphoid tissue (GALT), including the role of IL-2 (which induces an increase in BT) and the macrophage, which participates in the transport of bacteria from the intestinal lumen to mesenteric lymph nodes. A better understanding of the immunopathology of BT may contribute to the development of novel means of therapy for sepsis and other serious complications of bacterial infection.
 ...
PMID:[Bacterial translocation and its clinical significance]. 1599 93

Apheresis, a therapeutic procedure that has been available for decades, has recently been added to the long-term management of rheumatoid arthritis (RA). It is a procedure whereby blood is removed from the body and divided into its various components. With the development of specific instrumentation, it has become possible to target the specific cellular or humoral components to be removed or altered. RA is a destructive, chronic progressive disease with high morbidity and significant mortality if it is not treated. Recently, combinations of disease-modifying pharmacotherapeutic agents have successfully been brought to bear on this serious disease. This approach of combining potent anti-inflammatory, disease-modifying antirheumatic drugs (DMARDs), chemotherapy and biologicals continues with some success but not without significant dangers of severe adverse toxicity, including the risks of sepsis, immunopathology and malignancy. In the setting of RA, various apheresis procedures, with and without these combination modalities, have been tested with variable success. This article reviews that experience as an overall approach to better, safer RA disease management.
 ...
PMID:Role of apheresis in rheumatoid arthritis. 1710 Apr 2

The vast majority of clinical and basic science research on the immune consequences of burn injury and sepsis conducted during the last three decades has focused mainly on the roles of macrophages, neutrophils and, to a lesser extent, conventional T lymphocytes. During recent years, however, it has become increasingly clear that minor subsets of innate immune cells, innate regulatory lymphocytes in particular, are central to processes involved in both protective immunity and immunopathology. Recent reports by our laboratory and others have just begun to shed light on the critical roles of innate lymphocyte subsets, including natural killer T cells, natural killer cells, gamma-delta T cells, and naturally occurring CD4+CD25+ regulatory T cells during the immune response to burn injury and sepsis. Given their emerging importance and documented upstream regulatory capacities over macrophage, dendritic cell, and T lymphocyte functions, innate regulatory lymphocytes represent attractive new targets for therapeutic intervention for the overall immune paralysis that occurs with injury and sepsis. Here, we provide an overview of the current state of knowledge of these particular cell subsets in the immune response to burn injury and sepsis.
 ...
PMID:Innate lymphocyte subsets and their immunoregulatory roles in burn injury and sepsis. 1743 1

Sepsis remains a serious clinical problem because of high patient morbidity and mortality. Despite significant advances in critical care, there is still no efficient causal therapy applicable to patients indicating the need to further elucidate the molecular pathways leading to the immunopathology of sepsis. The importance of Toll-like receptors (TLR) for the induction of immune responses against sepsis was demonstrated in humans exhibiting polymorphisms in TLR genes and in animal models using genetically modified mouse strains. Because of the clinical heterogeneity in human sepsis and the complex pathomechanisms underlying sepsis, several different animal models might be used to cover the diverse features of sepsis. TLR receptors induce signaling through the adapter proteins MyD88 and TRIF. TLR signaling is tightly controlled at different steps of the signaling cascade by series of regulatory proteins. Using a model of severe polymicrobial septic peritonitis we could show that single TLRs are dispensable for the induction of innate immune responses under those conditions. However, genetic ablation of MyD88 or TRIF/type-I interferon signaling pathways prevented hyper-inflammation and attenuated the pathogenic consequences of sepsis indicating that dampening common signaling pathways may create a moderate signal strength which is associated with favorable immune responses. Therefore, broad knowledge about the regulation of TLR-induced signaling pathways may further elucidate the immune mechanisms during sepsis and targeting of TLR adapter molecules may provide a new therapeutic strategy against severe sepsis.
 ...
PMID:Role of Toll-like receptor responses for sepsis pathogenesis. 1808 73


1 2 3 4 5 Next >>