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:C0030305 (pancreatitis)
16,014 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of the pancreatitis-associated protein I (PAP I), an exocrine pancreatic protein, increases rapidly and strongly in acinar cells during the acute phase of pancreatitis. This is reminiscent of the response to stress of acute phase proteins. We have previously demonstrated that serum factors from rats with acute pancreatitis, but not from healthy rats, could induce endogenous PAP I gene expression in the acinar cell line AR-42J (Dusetti, N., Mallo, G., Dagorn, J.-C., Iovanna, J. L. (1994) Biochem. Biophys. Res. Commun. 204, 238-243). In the present work, we have evaluated the influence of several mediators of inflammation on rat PAP I gene transcription in these cells. Tumor necrosis factor alpha induced an increase in PAP I mRNA expression, and interferon gamma caused an even greater increase in PAP I mRNA level. These stimulations were antagonized by dexamethasone. Interleukin (IL)-1, IL-6, or dexamethasone alone were ineffective. Combinations of IL-1 with IL-6 or dexamethasone were also ineffective. IL-6 and dexamethasone together induced a marked stimulation of PAP I gene transcription, and this effect was slightly attenuated by IL-1. To analyze the cis-regulatory elements responsible for the induction of transcription, we fused a 1.2-kilobase segment of the rat PAP I promoter to the chloramphenicol acetyltransferase (CAT) gene as reporter. The resultant chimeric DNA was transfected into AR-42J cells. Addition of IL-6 or dexamethasone was ineffective, whereas their mixture increased the CAT activity 12 times. Progressive deletions of the PAP I promoter were then fused to the CAT gene, and the constructs were transfected to AR-42J cells. A 12-fold increase in CAT activity was seen upon IL-6/dexamethasone treatment with constructs containing more than 274 base pairs upstream from the cap site. In that region, two sequences are similar to the canonical IL-6 response element. Site-directed mutagenesis of these regions strongly decreased induction, showing that they were functional. PAP I should therefore be classified among acute phase proteins of class 2, whose expression is increased by IL-6 acting in combination with glucocorticoids.
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PMID:Pancreatitis-associated protein I (PAP I), an acute phase protein induced by cytokines. Identification of two functional interleukin-6 response elements in the rat PAP I promoter region. 754 77

Rat pancreatitis-associated protein (PAP) mRNA is barely detectable in normal pancreas and overexpressed during acute pancreatitis (Iovanna, J., Orelle, B., Keim, V., and Dagorn J.-C. (1991) J. Biol. Chem. 266, 24664-24669). RNA amplification by reverse-transcriptase-coupled polymerase chain reaction showed that PAP mRNA was constitutively expressed in duodenum, jejunum, and ileum, at similar levels as in pancreas during the acute phase of pancreatitis. A weak expression was also detected in several other tissues. The rat PAP gene was isolated from a genomic library and characterized over 3.2 kilobases of gene sequence and 1.2 kilobases of 5'-flanking sequence. The 5' end of the coding sequence was determined by primer extension of the PAP transcript. Several potential regulatory elements were identified in the promoter region, including a pancreas-specific consensus sequence, two Pan1 (pancreas-specific) transcription activators, two IL-6 response elements, and one glucocorticoid response element. The PAP coding sequence spanned over six exons. The first three exons encoded the 5'-untranslated region of the mRNA, the signal peptide, and 39 amino acids of the NH2-terminal end of the mature protein, respectively. The other three exons encoded a domain of the protein with significant homology to the carbohydrate-recognition domain of animal lectins. Sequence comparison of the PAP gene with 13 carbohydrate-recognition domain-containing genes revealed that they derived from the same ancestor gene. Position of introns within the carbohydrate-recognition domain were different, however, suggesting that PAP belongs to a new group of lectins. These results support the hypothesis that genes encoding PAP and other lectins evolved from a common ancestor gene by intron gain.
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PMID:Structural organization of the gene encoding the rat pancreatitis-associated protein. Analysis of its evolutionary history reveals an ancient divergence from the other carbohydrate-recognition domain-containing genes. 831 3

The pancreatitis-associated protein (PAP) is a lectin-related secretory protein present in small amounts in the rat pancreas and overexpressed during the acute phase of pancreatitis. On the other hand, PAP is constitutively expressed in the intestinal tract but not in other tissues. We cloned from a pancreatic cDNA library two overlapping cDNAs encoding a protein structurally related to PAP. This second PAP, which was called PAP II, was the same size as the original PAP (PAP I) and showed 74.3% amino acid homology. Studies on gene expression demonstrated that PAP II mRNA concentration increased within 6 h following induction of pancreatitis, reached maximal levels (> 200 times control values) at 24-48 h, and decreased thereafter, similar to PAP I. However, PAP II mRNA could not be detected in the intestinal tract or in other tissues. We also isolated a PAP II genomic DNA fragment which was characterized over 2.7 kb of gene sequence and 1.9 kb of 5' flanking sequence. The 5' end of the coding sequence was determined by primer extension of the PAP II mRNA. The PAP II coding sequence spanned six exons separated by five introns. Several potential regulatory elements were identified in the promoter region, including two glucocorticoid-response elements and one IL-6-response element. Antibodies raised to a synthetic peptide of PAP II detected a single band in Western blot analysis of the pancreatic secretory proteins from rats with pancreatitis, with a M(r) compatible with the theoretical M(r) of PAP II.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of a second rat pancreatitis-associated protein. Messenger RNA cloning, gene structure, and expression during acute pancreatitis. 836 91

During the acute phase of pancreatitis, expression of most pancreatic enzymes decreases, whereas mRNAs of pancreatitis associated protein and lithostathine/reg increase dramatically. In the present study we have investigated the effect of serum from rats with acute pancreatitis (SAP) and cytokines on the lithostathine/reg mRNA expression in AR-42J cells. Lithostathine/reg mRNA was strongly induced by SAP in a dose-dependent manner. Induction was abolished by preheating the SAP or by treating the cells with cycloheximide. Treatment with interleukins (IL) IL-1 or IL-6 or dexamethasone alone was ineffective. Combination of IL-1 with IL-6 was also ineffective. Combination of IL-6 with dexamethasone resulted in strong induction of the lithostathine/reg gene, but the further addition of IL-1 to the mixture reduced induction. Treatment with tumor necrosis factor-alpha (TNFalpha) or interferon-gamma (IFNgamma) induced lithostathine/reg mRNA expression. Combination of dexamethasone with TNFalpha or IFNgamma showed an inhibitory effect on lithostathine/reg mRNA expression. These findings suggest that expression of the lithostathine/reg mRNA during acute pancreatitis could be mediated by specific combinations of cytokines and/or glucocorticoids.
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PMID:Induction of lithostathine/reg mRNA expression by serum from rats with acute pancreatitis and cytokines in pancreatic acinar AR-42J cells. 865 87

The detection of cytokines may elucidate the pathophysiological mechanisms that produce early systemic complications in acute interstitial (i) or necrotizing (n) pancreatitis (AP). The increase in the level of cytokines in the blood of patients with AP may correlate with the severity of the disease. In a prospective clinical trial from October 1992 to August 1993, 23 patients with AP were recruited and blood samples taken for cytokine detection by commercially available Elisa kits and C-reactive protein (CRP) by laser nephelometry. Six of 11 patients with nAP died either early (n = 1) or of late septic complications. None died of iAP. The peak of cytokine and CRP level in the first 3 days of hospitalization was used for calculation. The IL-6 concentration in the blood reached up to 2600 pg/ml in the 1st few days, depending on the severity of AP, and dropped to almost zero in the next days, independently of the clinical course. The differentiation of i- versus nAP, using a cut-off line of 600 pg/ml, was correct in 20 patients [87%, sensitivity (SE): 82%, specificity (SP): 91%, P < 0.001]. The blood levels of IL-8 reached a maximum of 1381 pg/ml in the 1st few days, depending on the severity of AP, and showed a correlation with the clinical course in the following days. The peak of IL-8 blood levels indicated correctly the severity of AP in 18 out of 23 patients using a cutoff level of 200 pg/ml (accuracy: 78%, SE: 82%, SP: 75%, P < 0.01). The CRP levels increased up to a maximum of 535 mg/l and indicated the course of AP correctly in 18 out of 22 patients (SE and SP 82%, P < 0.01). There was no correlation between cytokine blood levels and mortality. In the blood samples of five patients with i- or nAP, no TNF-alpha was detectable. The blood levels of IL-6, and to a lesser extent of IL-8 and CRP, can predict the severity and early systemic complications of AP. The excessive rise in cytokines can be explained by the stimulation of immunological cells (macrophages, lymphocytes and endothelial cells) in the course of AP, inducing early systemic complications.
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PMID:[Clinical significance of cytokines Il-6, Il-8 and C-reactive protein in serum of patients with acute pancreatitis]. 908 85

Infectious complications are the leading cause of death in acute pancreatitis. Individual factors of immune defence could be of significance, whether or not a patient develops a severe course with infectious complications. In a prospective 5-year trial including 72 patients, we investigated 29 cellular and humoral markers of the body's defence system for their potential to indicate the severity and course of acute pancreatitis. Complement factors C3 and C4 as well as immunoglobulins IgG, IgM and IgA were normal, in general. Measurable levels of IL-1 alpha, IL-1 beta, IL-2 and sIL-2R could be detected only occasionally. Values of alpha 1-AT, TNF-alpha, TNF alpha-Rp75, neopterin, sICAM-1, IL-8, IL-1RA and sIL-6R did not correlate with a severe course. Due to the high magnitude of increase, CRP, IL-6 and granulocyte elastase were the best indicators of the inflammatory process. Delayed-type hypersensitivity response was the only early predictor of a severe course. It was superior over other cellular markers such as monocyte count or CD4+/CD8+ ratio. In vitro function of polymorphonuclear granulocytes (PMN) was not adequate to the severity of the disease already during the first week of illness. During further course, PMN motility and capacities to produce reactive oxygen species even worsened. The compromized PMN function could explain the frequent development of infectious complications in patients suffering from severe pancreatitis. These results should encourage new concepts of infection prophylaxis using stimulants of cellular defence.
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PMID:[Cellular and humoral functions in acute pancreatitis]. 913

The authors induced acute necrotizing pancreatitis in Wistar rat by intraductal injection of taurocholic acid (150 microliters or 200 microliters 6%). Plasma values of amylase, TNF, IL-6 levels and wet pancreas weight/body weight ratio have been determined. Histologic analysis of pancreas proved severe acute necrotizing pancreatitis with microabscess formation and beginning respiratory distress syndrome was observed in the lungs, TNF and IL-6 levels increased significantly after administration of 200 microliters 6% taurocholic acid. The authors emphasise the importance of cytokines in the development of acute necrotizing pancreatitis.
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PMID:[Cytokines in experimental acute pancreatitis]. 915 44

The purpose of this study was to evaluate the role of cytokines in septic conditions following acute pancreatitis and to elaborate a new strategy in the treatment. Increased TNF and IL-6 serum levels were found in 30% of the patients (n = 40), while the IL-6 level was elevated in all of them. There was a positive correlation between the serum IL-6 and sICAM-1 levels. The in vitro TNF and IL-6 producing capacities were initially higher in the study group, but decreased on subsequent days, especially in fatal cases (n = 3). Administration of pentoxifylline [PTX] (400 mg/day) to septic patients following necrotizing pancreatitis resulted in TNF and IL-6 production similar to that observed in control donors. The level of sICAM-1 also decreased following PTX therapy. These results suggest that cytokines produced by activated leucocytes are important in the pathogenesis of infected pancreatic necrosis, and their inhibition might be of therapeutic advantage.
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PMID:Relevance of cytokine production to infected pancreatic necrosis. 940 98

The effects of glucocorticoids on acute pancreatitis are a matter of dispute. In animal experiments, dexamethasone and hydrocortisone significantly decreased the serum amylase activities 8 hours after the induction of pancreatitis. In the dexamethasone treated group, the serum IL-6 level was significantly decreased at 4 and 8 hours, while in the hydrocortisone treated group, all the IL-6 values were significantly diminished vs. the control group. As compared to the control, a glucocorticoid antagonist (RU 38486) did not influence the serum amylase activity, but significantly increased the serum IL-6 level. These results suggest that glucocorticoids may play a role in the control of pancreatitis caused by inhibition of cytokine production.
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PMID:The effects of glucocorticoids and a glucocorticoid antagonist (RU 38486) on experimental acute pancreatitis in rat. 940 42

Activation of cytokine cascade is a decisive factor in determining the pathobiology of different inflammatory processes including acute pancreatitis. The purposes of this study were to determine the TNF and IL-6 levels after the induction of acute necrotizing pancreatitis, and to establish the effects of pentoxifylline on the cytokine production and the severity of pancreatitis. Acute necrotizing pancreatitis was induced by the retrograde injection of 200 microliters taurocholic acid into the pancreatic duct in male Wistar rats. TNF was titrated in a bioassay on cell line WEHI clone 164. IL-6 was measured via its proliferative action on the IL-6 dependent mouse hybridoma cell line B-9. Seven mg/kg pentoxifylline was administered intraperitoneally at the time of operation and/or 24 hours later. Rats were sacrificed, 48 or 72 hours after the operation. The TNF bioassay revealed high levels of TNF (36.6 +/- 6.0 U/ml) in the control group whereas levels decreased to zero in the pentoxifylline-treated group. The IL-6 bioassay likewise demonstrated high levels of IL-6 in the control group and markedly decreased levels in the pentoxifylline treated group (7083 +/- 2844 pg/ml, 6463 +/- 1307 pg/ml vs. 137.5 +/- 85.5 pg/ml, respectively, p < 0.05). The high mortality observed in the control group (43%) was sharply decreased by pentoxifylline administration to 11%. The data suggest that pentoxifylline is capable of modifying the cytokine production after 48 hours of induction of acute pancreatitis.
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PMID:Plasma levels of TNF and IL-6 following induction of acute pancreatitis and pentoxifylline treatment in rats. 940 54


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