Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute lung injury, characterized as the adult respiratory distress syndrome (ARDS), is a common clinical occurrence following blood loss and injury. We previously found increased levels of transforming growth factor (TGF)-beta 1 mRNA in murine intraparenchymal mononuclear cells and in alveolar macrophages within 1 h after hemorrhage. Because TGF-beta has potent proinflammatory and immunoregulatory properties, we investigated the effect of blocking TGF-beta with mAb on hemorrhage-induced pathology, cytokine mRNA levels in lungs, as well as survival from pneumonia. Mice treated with anti-TGF-beta mAb showed normal pulmonary histology 3 days after hemorrhage and resuscitation in contrast to the mononuclear and neutrophil infiltrates, intraalveolar hemorrhage, and interstitial edema found in hemorrhaged mice either treated with control antibody or not treated with any antibody. Decreased mRNA levels for IL-1 beta, TNF-alpha, IL-6, IL-10, and IFN-gamma as compared with untreated, hemorrhaged controls were present in intraparenchymal pulmonary mononuclear cells following therapy with anti-TGF-beta. In contrast, therapy with anti-TGF-beta increased mRNA levels for IL-1 beta and TNF-alpha in alveolar macrophages and for TGF-beta in peripheral blood mononuclear cells collected 3 days after hemorrhage. Administration of anti-TGF-beta to hemorrhaged mice did not correct the enhanced susceptibility to Pseudomonas aeruginosa pneumonia that exists after hemorrhage. These results suggest that TGF-beta has an important role in hemorrhage-induced acute lung injury, but does not contribute to the post-hemorrhage depression in pulmonary antibacterial response.
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PMID:Anti-transforming growth factor-beta monoclonal antibodies prevent lung injury in hemorrhaged mice. 808 71

To investigate the mechanisms of action underlying the therapeutic effect of CD4 monoclonal antibody therapy in rheumatoid arthritis (RA), clinical responses were compared with several laboratory parameters. Twenty-nine RA patients received either 10 mg, 50 mg or 100 mg of cM-T412, a chimeric CD4 MoAb, for 7 days. The CD4 binding sites on circulating lymphocytes were saturated directly with cM-T412 and serum levels of unbound cM-T412 accumulated towards day 7 of treatment only in the patients treated with 50 and 100 mg. The treatment induced an instant and prolonged depression of the number of circulating CD4+ cells, similar for all dosages. Clinical improvement was observed predominantly in the patients treated with 50 or 100 mg cM-T412 daily and did not correlate with changes in counts of circulating leucocyte subsets nor with changes in serum cytokine levels. An antiglobulin response against cM-T412 developed in a majority of the patients. Side effects on the first day of treatment were correlated with an increase of serum IL-6 levels. This study indicates that a favourable clinical effect of cM-T412 administration was associated with the presence of unbound cM-T412 in the circulation of RA patients. Therefore penetration of unbound cM-T412 into the site of inflammation might determine the therapeutic effect in RA.
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PMID:Treatment of rheumatoid arthritis with a chimeric CD4 monoclonal antibody (cM-T412): immunopharmacological aspects and mechanisms of action. 812 88

This study evaluated the efficacy and mode of action of rapamycin (RPM) in a model of accelerated (24-hr) rejection of LBNF1 cardiac allografts in specifically sensitized LEW rats. RPM treatment (0.25 mg/kg/day i.p.) between the day of sensitizing skin grafts (day -7) and subsequent heart (day 0) transplantation (Tx), abrogated fulminant rejection and prolonged cardiac allograft survival to 46 +/- 22 days (mean +/- SD, P < 0.0001). The delayed introduction of RPM until day -2 or day -1 was equally effective, whereas treatment initiated after cardiac Tx was ineffectual. Untreated accelerated rejection was associated with strong production of circulating IgM, whereas an IgG alloantibody response was not detected until after rejection was complete. RPM therapy (day -7 to -1) diminished this systemic IgM response and prevented the switch from IgM to IgG alloantibody production. Immunohistologic evaluation at 24 hr after cardiac Tx showed that compared with untreated hosts RPM treatment largely abolished intragraft cellularity, and was associated with decreased mononuclear and endothelial cell activation. Specifically, Ia and ICAM-1 upregulation was abolished, and no cells elaborating IL-2 or IFN-gamma were detected. In addition, RPM treatment prevented intragraft production of the proinflammatory cytokines IL-1 beta, IL-6, and IL-8. The effects of RPM therapy on recipient cellular responses were evaluated in vitro by mixed lymphocyte reaction. Surprisingly, the donor-specific proliferative response of cells from RPM-treated hosts at 1 or 7 days after Tx was markedly increased, compared with cells from rejecting, untreated controls, and bioassay of IL-2 within supernatants of MLR cultures showed comparable levels of IL-2 in both groups. The effects of RPM upon adhesion properties of lymph node lymphocytes were also tested in an in vitro binding assay. The binding of naive cells to sections of cardiac allografts collected from RPM-treated hosts at 24 hr post-Tx was decreased compared with that in untreated recipients. Interestingly, the binding of mononuclear cells to high endothelial venules of peripheral lymph nodes in RPM-treated hosts remained relatively high. Thus, treatment with RPM prevents and/or erases the sensitization, which otherwise leads to accelerated allograft rejection. Abrogation of allograft injury by RPM was associated with profound and long-lasting depression of host IgM and IgG alloantibody responses in the circulation, and selective downregulation of host cellular immunity and endothelial activation at the graft site. In contrast, antigen alloreactivity and endothelial adhesivity in peripheral lymphoid tissues were spared, indicating novel and potent selective effects of RPM therapy in allograft recipients.
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PMID:Abrogation by rapamycin of accelerated rejection in sensitized rats by inhibition of alloantibody responses and selective suppression of intragraft mononuclear and endothelial cell activation, cytokine production, and cell adhesion. 815 43

Altered lipoprotein metabolism and vascular injury are considered to be major parts of the pathogenesis of atherosclerotic lesions. Serum amyloid A (SAA) is a family of acute-phase reactants found residing mainly on high density lipoproteins (HDL) in the circulation. Several functions for the SAAs have been proposed that could be important in atherosclerosis. These include involvement in cholesterol metabolism, participation in detoxification, depression of immune responses, and interference with platelet functions. Like other acute-phase reactants, the liver is a major site of SAA synthesis. However, studies in the mouse have revealed that several cell types including macrophages express SAA. Furthermore, we recently found that SAA mRNA expression can be induced in the human monocyte/macrophage cell line, THP-1. In the present study, human atherosclerotic lesions of coronary and carotid arteries were examined for expression of SAA mRNA by in situ hybridization. Surprisingly, SAA mRNA was found in most endothelial cells and some smooth muscle cells as well as macrophage-derived "foam cells," adventitial macrophages, and adipocytes. In addition, cultured smooth muscle cells expressed SAA1, SAA2, and SAA4 mRNAs when treated with interleukin 1 or 6 (IL-1 or IL-6) in the presence of dexamethasone. These findings give further credence to the notion that the SAAs are involved in lipid metabolism or transport at sites of injury and in atherosclerosis or may play a role in defending against viruses or other injurious agents such as oxidized lipids. Furthermore, expression of SAAs by endothelial cells is compatible with the evidence that SAA modulates platelet aggregation and function and possibly adhesion at the endothelial cell surface.
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PMID:Expression of apolipoprotein serum amyloid A mRNA in human atherosclerotic lesions and cultured vascular cells: implications for serum amyloid A function. 815 22

The cytokine response to injury or trauma is of interest in terms of both its mediation of the acute phase response and its possible relation to the immunological depression observed after major surgery. In this study, the production of cytokines IL-1 beta, tumour necrosis factor-alpha (TNF-alpha), IL-6 and the naturally occurring inhibitor of IL-1, IL-1Ra, have been investigated in infants and children undergoing Swenson's pull-through operation for Hirschsprung's disease. Samples of peripheral blood were taken before, during and after surgery for the measurement of cytokines. IL-1Ra levels increased significantly (P < 0.01) at 2 h after commencement of surgery, with maximal levels for individual patients being attained between 3 h and 5 h (range 7.6-67.9 ng/ml). The mean level of IL-1Ra was maximal (26.2 ng/ml) at 5 h and returned to baseline levels between 24 h and 72 h. There were no changes observed in the circulating levels of IL-1 beta in nine out of 11 patients following commencement of surgery. TNF-alpha levels did not increase in any of the patients studied. IL-6 levels increased significantly (P < 0.02) 3 h after commencement of surgery, reaching maximum concentrations at 24 h (range 20-670 pg/ml), with levels falling between 48 h and 72 h. This study demonstrates, in vivo, the independent induction of IL-1Ra without a concomitant increase of IL-1 beta levels after major surgery. It also shows that IL-1Ra is the earliest cytokine produced in response to surgical stress.
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PMID:Early induction of IL-1 receptor antagonist (IL-1Ra) in infants and children undergoing surgery. 834 47

IL-6 is a cytokine synthesized by T cells and macrophages (M phi). It has pleiotropic effects on diverse cell types and is recognized for its "pro-inflammatory" properties. In mice, IL-4, IL-5, IL-6, and IL-10 are produced by Th-2 cells. Because IL-10 suppresses Th-1 clones, and IL-4 broadly deactivates M phi, experiments were carried out to investigate the in vitro effects of recombinant human IL-6 on cytokine activation of human M phi. Pretreatment with IL-6 induced a dose- and time-dependent suppression of IFN-gamma (1000 U/mL) and TNF-alpha (25 ng/mL) activation of M phi for the killing of L. amazonensis. At doses greater than 0.1 to 100 ng/mL, IL-6 inhibited IFN-gamma and TNF-alpha activation by 21 to 93% and 36 to 82%, respectively. IL-6 alone had no effect on M phi viability and intracellular L. amazonensis growth. Blockade of M phi activation was greatest when IL-6 was added 24 or 48 h before infection and treatment with IFN-gamma or TNF-alpha. Furthermore, mAb against IL-6 abrogated the inhibitory activity of IL-6. Similarly IL-6 pretreatment suppressed M phi activation for antileishmanial capacity by IL-3, granulocyte-monocyte-CSF (GM-CSF) and IL-1 beta. Because cytokine induction of antileishmanial activity is associated with enhancement of oxidative capacity, the effect of IL-6 on this mechanism was evaluated. Pretreatment with IL-6 down-modulated TNF-alpha (25 ng/mL) enhancement of M phi oxidative capacity in a dose- and time-dependent manner. A similar depression of oxidative capacity was observed for GM-CSF and IL-3 but not for IFN-gamma. Furthermore, NG-monomethyl-L-arginine (a nitric oxide synthase inhibitor) had no effect on IFN-gamma and TNF-alpha activation of antileishmanial activity and nitrites/nitrates were not reliably assayed from M phi culture supernatants. These findings suggest that IL-6 down-modulates cytokine activation of M phi antileishmanial capacity by inhibiting oxygen-dependent and undefined oxygen-independent mechanisms.
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PMID:IL-6 down-modulates the cytokine-enhanced antileishmanial activity in human macrophages. 839 59

Although hemorrhage is known to cause increased susceptibility to infection, the precise mechanism remains unknown. Regional hypoxia due to reduced blood flow following hemorrhage appears to be a primary mediator that initiates the cascade of events leading to immunodepression and increased susceptibility to infection. This was evident from depression of lymphocyte functions, production of various lymphokines, macrophage expression of receptors involved in opsonin-mediated phagocytosis, and antigen presentation function of peritoneal, splenic, and Kupffer cells following hemorrhage. The depression in various immune functions is apparent immediately after hemorrhage and persists for a prolonged period of time, despite volume resuscitation. Furthermore, it appears that the increased release of systemic mediators, such as interleukin-1 (IL-1), IL-6, tumor necrosis factor, transforming growth factor type beta, and prostaglandin E2 is associated with marked depression in immune responses and increased susceptibility to infection following hemorrhage.
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PMID:Mechanism of increased susceptibility to infection following hemorrhage. 843 1

Hemorrhagic shock causes severe depression of macrophage functions and is associated with increased susceptibility to sepsis. Because hemorrhagic shock and resuscitation encompasses several pathophysiological conditions, such as hypotension, low-flow conditions, hypoxia, and reperfusion injury, it remains unknown whether severe hypotension in the absence of blood loss has any adverse effects on macrophage functions. To study this, systemic arterial hypotension was induced in C3H/HeN mice for 15 min by intravenous infusion of sodium nitroprusside or ATP-MgCl2. Peritoneal macrophages (PM) was harvested 20 h later with lavage. Antigen presentation was measured by coculturing PM with the D10.G4.1 Th cell clone. Tumor necrosis factor (TNF), interleukin (IL)-6, IL-1, and prostaglandin (PG) E2 levels in supernatants of PM stimulated with lipopolysaccharide were measured with bioassays or radioimmunoassay. Systemic arterial hypotension resulted in a significant decrease of PM capacity to present antigen. Although the release of TNF, IL-6, and IL-1 by PM was unaltered after hypotension, PGE2 release by PM was significantly elevated compared with the control group. These data indicate that chemically induced systemic arterial hypotension without blood loss leads to a depression of antigen presentation, which may be caused by elevated release of the immunosuppressive eicosanoid PGE2.
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PMID:Chemically induced hypotension increases PGE2 release and depresses macrophage antigen presentation. 847 8

Proinflammatory cytokines are important mediators during endotoxemia. In experimental models, injection of lipopolysaccharide (LPS) activates macrophages leading to excessive secretion of tumor necrosis factor (TNF)-alpha, interleukin (IL)-1 beta and IL-6; infusion of high dose of these mediators results in organ failure and death. Natural infection may be different, because it persists over days or even weeks, with repeated endotoxin challenge to macrophages. Little is known about the capacity of peripheral blood mononuclear cells (PBMCs) to release proinflammatory cytokines under these conditions. Therefore, as an ex vivo model of sepsis, the expression of proinflammatory cytokines after stimulation of whole blood with LPS was studied. A high LPS dose (1 microgram/ml) maximally increased TNF-alpha, IL-1 beta and IL-6 secretion in controls, but a marked depression was observed in septic patients (p < 0.01; 15 patients with severe sepsis versus 20 control patients without infection). This reduction persisted for up to 10 days after diagnosis of sepsis. The release of TNF-alpha, IL-1 beta and IL-6 was markedly decreased in the septic group even when a lower and physiologically more relevant LPS concentration (1 ng/ml) was used. IL-1 beta mRNA was similar to controls, but a down-regulation was observed in TNF-alpha and IL-6 transcript levels in PBMCs from the blood of septic patients. This was at least in part due to a marked reduction in TNF and IL-6 mRNA half-life. These results indicate that different mechanisms down-regulate proinflammatory cytokine release in the whole blood of septic patients. Although excessive secretion is known to be deleterious, low concentrations of these cytokines are involved in regulating essential cellular and humoral immune functions. Thus, the reduced capacity to express and release adequate amounts of proinflammatory cytokines after exposure to endotoxin, as observed in whole-blood PBMCs from septic patients, may contribute to the development of immunodeficiency.
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PMID:Interleukin-1, -6 and tumor necrosis factor-alpha release is down-regulated in whole blood from septic patients. 867 54

The immune response to trauma, shock, and/or sepsis appears to exhibit a bimodal response, in which there is an early exaggerated inflammatory response, giving way over time to a state of hyporesponsiveness or immune dysfunction. This state of immune dysfunction is frequently associated with increased infectious complications and/or mortality, seen following shock or trauma. In this article, we present an overview of some of those changes that have been seen with respect to the process of major histocompatibility class II (MHC class II) antigen presentation by macrophage, a key component of the overall host immune response to foreign bacterial and/or fungal pathogens encountered following shock/trauma (with a particular emphasis on hemorrhagic shock as a component of traumatic shock). With respect to the overall process of antigen presentation, defects (dysfunction) are evident not only in models of shock and sepsis, but also in traumatized patients. Studies of the capacity of a monocyte's/macrophage's ability to present antigen indicate that defects can be detected, not only in those steps involved in antigenic processing, but also in MHC class II molecule expression and accessory molecule function (or its inhibition) following shock. Those changes in the macrophage's capacity to process antigen seen during the first 24 h after hemorrhagic shock appear to be associated with the cell's metabolic response to regional hypoxia and/or the shift to proinflammatory mediator release (tumor necrosis factor, interleukin [IL]-1, IL-6, etc.). This initial acute response to shock appears to act as the nidus for chronic anti-inflammatory mediator release (prostaglandin E2, transforming growth factor-beta, IL-10, IL-4, nitric oxide, etc.), which may mediate the sustained depression of the antigen-presenting cell's function.
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PMID:Trauma-induced suppression of antigen presentation and expression of major histocompatibility class II antigen complex in leukocytes. 870 94


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