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

Adrenomedullin (AM) is a recently discovered, potent vasodilatory peptide with activities including maintenance of cardiovascular and renal homeostasis. Studies have indicated that AM is important in initiating the hyperdynamic response during the early stage of sepsis, and reduction of the vascular effects of AM marks the transition from the initial hyperdynamic phase to the late hypodynamic phase in experimental sepsis. The decreased AM responsiveness in late sepsis may be related to alterations in the AM receptor binding characteristics and/or signaling pathways. Genetic experiments have provided useful information by enhancing AM gene expression. Moreover, a plasma protein which binds AM, adrenomedullin binding protein-1 (AMBP-1), was reported very recently and is just beginning to be investigated as an important modulator in the biphasic septic response. In this regard, our recent results have demonstrated that AMBP-1 synergistically enhanced AM-induced vascular relaxation in both sham and septic animals. It appears that decreased levels of AMBP-1 play a critical role in producing vascular AM hyporesponsiveness during the late stage of sepsis. Furthermore, administration of AM and AMBP-1 in combination prevented the transition from the hyperdynamic to hypodynamic response during the progression of polymicrobial sepsis. Thus, modulation of vascular responsiveness to AM by AMBP-1 may provide a novel approach for the management of sepsis.
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PMID:Adrenomedullin and adrenomedullin binding protein-1: their role in the septic response. 1264 61

Recent studies have demonstrated that administration of adrenomedullin (AM) and AM binding protein-1 (AMBP-1) maintains cardiovascular stability and reduces mortality in sepsis. However, the mechanism responsible for the beneficial effect of AM/AMBP-1 remains unknown. The aim of this study therefore was to determine whether AM/AMBP-1 directly reduces lipopolysaccharide (LPS)-induced secretion of TNF-alpha from murine macrophage-like cell line RAW 264.7 cells and Kupffer cells isolated from normal rats. TNF-alpha release and gene expression were determined by ELISA and RT-PCR, respectively. The results indicated that LPS increased TNF-alpha production from RAW cells by 38-63-fold in a dose- and time-dependent manner. Although incubation with AM or AMBP-1 alone inhibited LPS-induced TNF-alpha release by 14-22% and 13-22%, respectively, AM and AMBP-1 in combination significantly suppressed TNF-alpha production (by 24-35%). Moreover, the upregulated TNF-alpha mRNA by LPS stimulation was significantly reduced by AM/AMBP-1, but not by AM or AMBP-1 alone. In the Kupffer cells primary culture, AM or AMBP-1 alone inhibited LPS-induced TNF-alpha production by 52% and 44%, respectively. Co-culture with AM/AMBP-1 markedly reduced TNF-alpha production (by 90%). Moreover, AM or AMBP-1 alone decreased TNF-alpha mRNA expression by 41% and 36%, respectively, whereas the combination of AM/AMBP-1 decreased its expression by 63%. These results indicate that AM and AMBP-1 in combination effectively suppress LPS-induced TNF-alpha expression and release especially from primary cultured Kupffer cells, suggesting that the downregulatory effect of AM/AMBP-1 on proinflammatory cytokine TNF-alpha may represent a mechanism responsible for their beneficial effects in preventing inflammatory responses and tissue damage in sepsis.
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PMID:Adrenomedullin and adrenomedullin binding protein-1 downregulate TNF-alpha in macrophage cell line and rat Kupffer cells. 1266 21

Human adipose tissue is a contributor to inflammation- and sepsis-induced elevation of serum procalcitonin (ProCT). Several calcitonin (CT) peptides, including ProCT, CT gene-related peptide (CGRP), and adrenomedullin (ADM) are suspected mediators in human inflammatory diseases. Therefore, we aimed to explore the expression, interactions, and potential roles of adipocyte-derived CT peptide production. Expression of CT peptide-specific transcripts was analyzed by RT-PCR and quantitative real-time PCR in human adipose tissue biopsies and three different inflammation-challenged human adipocyte models. ProCT, CGRP, and ADM secretions were assessed by immunological methods. Adipocyte transcriptional activity, glycerol release, and insulin-mediated glucose transport were studied after exogenous CGRP and ADM exposure. With the exception of amylin, CT peptides were expressed in adipose tissue biopsies from septic patients, inflammation-activated mature explanted adipocytes, and macrophage-activated preadipocyte-derived adipocytes. ProCT and CGRP productions were significantly augmented in IL-1beta and lipopolysaccharide-challenged mesenchymal stem cell-derived adipocytes but not in undifferentiated mesenchymal stem cells. In contrast, ADM expression occurred before and after adipogenic differentiation. Interferon-gamma coadministration inhibited IL-1beta-mediated ProCT and CGRP secretion by 78 and 34%, respectively but augmented IL-1beta-mediated ADM secretion by 50%. Exogenous CGRP and ADM administration induced CT, CGRP I, and CGRP II mRNAs and dose-dependently (10(-10) and 10(-6) m) enhanced glycerol release. In contrast, no CGRP- and ADM-mediated effects were noted on ADM, TNFalpha, and IL-1beta mRNA abundances. In summary, CGRP and ADM are two differentially regulated novel adipose tissue secretion factors exerting autocrine/paracrine roles. Their lipolytic effect (glycerol release) suggests a metabolic role in adipocytes during inflammation.
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PMID:Autocrine/paracrine role of inflammation-mediated calcitonin gene-related peptide and adrenomedullin expression in human adipose tissue. 1576 Oct 41

We have previously shown that administration of adrenomedullin (AM) and AM binding protein-1 (AMBP-1) in combination maintains cardiovascular stability and reduces mortality in a rat model of sepsis. However, it is unknown whether AMBP-1 is reduced under the septic condition and, if so, whether lipopolysaccharide (LPS) plays a role in down-regulating AMBP-1. To determine this, male adult Sprague-Dawley rats were subjected to either polymicrobial sepsis by cecal ligation and puncture (CLP), or endotoxemia by intraperitoneal injection of LPS (15 mg/kg body weight). In an additional group of animals, LPS neutralizing agent polymyxin B (PMB) was given intramuscularly at 0.5 h before and 9 h after CLP. At 20 h after CLP (i.e. the late stage of sepsis) or endotoxemia, hepatic tissue and blood samples were collected. Hepatic AMBP-1 gene expression along with hepatic and plasma AMBP-1 protein levels were measured by RT-PCR and Western blot analysis, respectively. Our results showed that hepatic AMBP-1 gene expression decreased by 65%, hepatic AMBP-1 protein levels decreased by 72%, and plasma levels of AMBP-1 decreased by 59% at 20 h after CLP. Similar results were also seen in the animals receiving LPS injection. Administration of PMB, however, prevented the downregulation of AMBP-1 expression at 20 h after CLP. Thus, AMBP-1 is downregulated in the late phase of sepsis, and LPS plays a critical role in the reduction of AMBP-1.
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PMID:Adrenomedullin binding protein-1 is downregulated during polymicrobial sepsis in the rat. 1659 82

Plasma level of adrenomedullin (AM), a potent vasodilator peptide, is increased in patients with sepsis. AM was also found to be present in cerebrospinal fluid (CSF) of humans, and intracerebroventricular injection of AM resulted in elevated systemic blood pressure in rats. In the present study, we measured AM levels in CSF and plasma of 7 patients with septic shock who had severe hypotension, and compared with those of 10 control patients receiving primary transurethral resection of bladder tumor. CSF samples were obtained through the procedure of lumbar puncture and AM levels were measured by radioimmunoassay. AM concentration in CSF of the septic patients was increased to a level 35 times higher than that of control group (35 +/- 21 vs. 0.9 +/-0 .3 pmol/L, mean +/- S .D., p < 0.01). Similarly, plasma AM concentration was increased by 27 times compared with control group (176 +/- 71 vs. 6.5+/-1.8 pmol/L, p < 0.01). Despite the similar increase in CSF and plasma AM, no significant correlation was found between the AM concentrations in the CSF and plasma (r = 0.01 P = 0.95). Taken together with the central actions of AM, these findings suggest that AM of the central nervous system may be involved in pathophysiology of sepsis of humans.
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PMID:Increased adrenomedullin concentration in cerebrospinal fluid in patients with septic shock. 1768 12

Sepsis is a critical inflammatory condition from which numerous patients die due to multiple organ failure and septic shock. The vasoactive hormone adrenomedullin (AM) and its binding protein (AMBP-1) are beneficial in sepsis by abrogating the progression to irreversible shock and decreasing proinflammatory cytokine release. To investigate the anti-inflammatory mechanism, we studied to determine the effect of the AM/AMBP-1 complex on peroxisome proliferator-activated receptor-gamma (PPAR-gamma) expression and activation by using RAW264.7 cells and a rat endotoxemia model. LPS treatment significantly decreased PPAR-gamma expression in vivo and in vitro and was associated with increased TNF-alpha production. Treatment with AM/AMBP-1 for 4 h completely restored PPAR-gamma levels in both models, resulting in TNF-alpha suppression. In a knockdown model using small interfering RNA in RAW264.7 macrophages, AM/AMBP-1 failed to suppress TNF-alpha production in the absence of PPAR-gamma. LPS caused the suppression of intracellular cyclic AMP (cAMP), which was prevented by simultaneous AM/AMBP-1 treatment. Although incubation with dibutyryl cAMP significantly decreased LPS-induced TauNuF-alpha release, it did not alter PPAR-gamma expression. Through inhibition studies using genistein and PD98059 we found that the Pyk-2 tyrosine kinase-ERK1/2 pathway is in part responsible for the AM/AMBP-1-mediated induction of PPAR-gamma and the anti-inflammatory effect. We conclude that AM/AMBP-1 is protective in sepsis due to its vasoactive properties and direct anti-inflammatory effects mediated through both the cAMP-dependent pathway and Pyk-2-ERK1/2-dependent induction of PPAR-gamma.
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PMID:Vasoactive hormone adrenomedullin and its binding protein: anti-inflammatory effects by up-regulating peroxisome proliferator-activated receptor-gamma. 1794 2

Although loss of endothelial barrier function is a hallmark of every acute inflammation and contributes to fatal loss of organ function during severe infections, there is no sufficient therapy for stabilization of endothelial barrier function. Endogenous peptide adrenomedullin (AM) serum levels were shown to be increased during severe infection including sepsis and septic shock. In different in-vitro and in-vivo models AM acted as a potent therapeutic endothelial barrier function-stabilizing agent. Activation of specific receptors by AM results in elevation of second messenger cAMP. AM inhibits actin-myosin based endothelial cell contraction and junctional disassembly, thereby preventing paracellular permeability and oedema formation. The peptide furthermore possesses several protective cardiovascular qualities, including protection of the microcirculation during inflammation, and was proven as an efficient counter-regulatory molecule in various models of sepsis and septic shock. Overall, AM may be an attractive molecule to combat against cardiovascular malfunction during severe infection.
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PMID:Adrenomedullin and endothelial barrier function. 1800 May 97

Plasma levels of endothelin-1 (ET-1) and adrenomedullin (ADM), two opposingly acting peptides, correlate with mortality in endotoxemia, but their measurement is cumbersome. New sandwich assays have been introduced that measure more stable precursor fragments. The objective of this study was to investigate the counterplay of their precursor peptides in septic patients and to compare them with disease severity and other biomarkers. Blood samples of an observational study in 95 consecutive critically ill patients admitted to the intensive care unit (ICU) were analyzed. CT-proET-1 and MR-proADM concentrations on admission were measured using new sandwich immunoassays. Depending on the clinical severity of the infection, both CT-proET-1 and MR-proADM levels exhibited a gradual increase from Systemic Inflammatory Response Syndrome (SIRS) to sepsis and septic shock (p < .001). Compared to the group of survivors, the group of nonsurvivors had higher median values of MR-proADM (5.7 nmol/L [range 0.4 to 21.0] versus 1.9 nmol/L [range 0.3 to 17.1], p < .02) and similar CT-proET-1 levels (56.0pmol/L [range 0.5 to 271.0] versus 54.1pmol/L [range 1.0 to 506.0], p = .86). Receiver operating characteristics (ROC) curve analysis showed a higher prognostic accuracy of the calculated ratio of both counteracting substances as compared to CT-proET-1 (p = 0.001) and C-reactive protein (CRP) (p = .001) and in the range of MR-proADM (p = .51), procalcitonin (p = 0.22), and the APACHE II score (p = .61). Endothelin-1 and adrenomedullin precursor peptides gradually increase with increasing severities of infection in critically ill patients. The ratio of the two counteracting peptides correlates with mortality and shows a prognostic accuracy to predict adverse outcome comparable to the APACHE II score.
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PMID:Circulating precursor levels of endothelin-1 and adrenomedullin, two endothelium-derived, counteracting substances, in sepsis. 1808 Aug 71

We recently discovered that the vascular responsiveness to adrenomedullin (AM), a potent vasoactive peptide, decreased during sepsis and hemorrhage in the rat and was markedly improved by its novel binding protein (AMBP-1). Moreover, AM/AMBP-1 appears to be one of the leading candidates for further development to treat sepsis and hemorrhage. However, the extremely high cost of commercial AMBP-1 limits the development of human AM and AMBP-1 as therapeutic agents. The purpose of this study was to isolate and purify AMBP-1 from normal human serum and test its stability and biological activity under in vitro and in vivo conditions. AMBP-1 was isolated and purified from normal human serum with a yield of about 3.0 mg per 100 mL and purity of >99%. The purified AMBP-1 has a AM-binding capacity similar to that of the commercial AMBP-1. Human AM and human AMBP-1 in combination significantly inhibited lipopolysaccharide-induced tumor necrosis factor (TNF)-alpha and interleukin (IL)-6 production from macrophages. The biological activity of the purified human AMBP-1 was well preserved when stored at 45 degrees C for 5 d in solution or at 100 degrees C for 1 h in powder. Moreover, administration of AM and purified AMBP-1 to hemorrhaged rats attenuated tissue injury and neutrophil accumulation. Purified AMBP-1 in combination with AM also suppressed the hemorrhage-induced rise in serum cytokines TNF-alpha and IL-6. Thus, we have successfully purified biologically active AMBP-1 from human normal serum and demonstrated the stability of purified human AMBP-1. This technique will enable us to further develop human AM/AMBP-1 as a novel treatment for safe and effective therapy of patients with hemorrhagic shock, sepsis, and ischemic injury.
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PMID:Purification and characterization of human adrenomedullin binding protein-1. 1849 85

Circulating levels of B-type natriuretic peptide (BNP) and NH(2)-terminal-proBNP (NT-proBNP) increase in response to volume overload and help in the differential diagnosis of acute heart failure. Elevated plasma BNP levels are observed also in sepsis and do not always correspond to left ventricular dysfunction. Here, we investigated plasma NT-proBNP fluctuations in response to human bacterial endotoxinemia, an experimental model of systemic infection and inflammation. Escherichia coli endotoxin (LPS) (2 ng/kg) was administered to 10 healthy volunteers in a randomized, placebo-controlled, cross-over design. Plasma NT-proBNP, C-reactive protein (CRP), COOH terminal pro-endothelin-1 (CT-proET-1), and midregional-pro-adrenomedullin (MR-proADM) were measured at hourly intervals for 6 h. LPS administration induced a continuous increase in plasma NT-proBNP that reached peak values after 6 h (40.7 +/- 7.9 vs. 16.1 +/- 3.2 pg/ml in placebo days, mean +/- SE; P = 0.023). The profile of changes in NT-proBNP correlated to changes in body temperature (P < 0.001), heart rate (P = 0.005), CRP (P < 0.001), and CT-proET-1 (P = 0.008), but not to blood pressure values. Our results demonstrate that plasma NT-proBNP increases in a model of systemic infection/inflammation in healthy men with normal heart function. This finding emphasizes the necessity to consider concomitant infections when interpreting elevated circulating NT-proBNP concentrations.
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PMID:Plasma NT-proBNP increases in response to LPS administration in healthy men. 1884 86


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