UMLS:C0030305 - FACTA Search

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

Morphology of pancreas (either esocrine, either endocrine) was studied in 29 cases of surgically treated chronic pancreatitis (27 cases of chronic calcifying pancreatitis and 2 cases of chronic obstructive pancreatitis). Parenchymal sclerosis in chronic calcifying pancreatitis (CCP) which represents the goal of our study was graded as mild (10 cases), moderate (10) and severe (7). Immunoperoxidase staining (PAP method) for insulin, glucagon, somatostatin, pancreatic polipeptide (PP), vasoactive intestinal polipeptide (VIP) and gastrin, was used to investigate endocrine pancreas. Acinar sclerosis and endocrine damage were closely related. Progression of sclerosis into islet appears to follow vascular pedicles producing a fragmentation into small cell groups as final result. In all cases of moderate or severe sclerosis, A/B cell ratio was increased due to the reduction of insulin positive cells. "Adenoma-like complexes", i.e., apparent concentration of islets, resulting from the loss of the acinar component, were observed in 7 cases with moderate or severe sclerosis. Nesidioblastosis was a prominent feature in all cases but one, with a positivity for insulin in 11 cases, for glucagon in 13, for somatostatin in 6 and for PP in 17. No positivity for gastrin was observed, while VIP was detected in a few ganglia. An increased amount of PP cells in islet and budding from the ducts was noticed and their presence outside the pancreatic head was demonstrable in 4 out of the 7 distal pancreatectomy specimens. Our data confirm the secondary involvement of the endocrine pancreas in the sclerotic acinar process.
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PMID:[Anatomopathologic pictures of chronic pancreatitis]. 209 39

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

PAP III belongs to the family of pancreatitis-associated proteins, recently characterized as pancreatic secretory proteins structurally related to C-type lectins, and whose expression is induced during the acute phase of pancreatitis. In this paper, we describe the cloning, characterization and chromosomal localization of the rat PAP III gene. The gene was isolated from a genomic library using a PCR-based method and characterized over 2.5 kb of gene sequence and 1.7 kb of 5'-flanking sequence. The 5' end of the coding sequence was determined by primer extension of the PAP III transcript. The PAP III coding sequence spanned over six exons. We found striking similarities between PAP III and PAP I and II genes, in genomic organization as well as in promoter sequences. Moreover, the rat PAP III gene was mapped to chromosome 4 using mouse-rat hybrid cells, a localization which coincides with that of the PAP I and II genes. The three genes could therefore derive from the same ancestral gene by duplication. Expression of the PAP III gene was compared with that of PAPs I and II. Expression levels were similar in pancreas, where PAP III mRNA concentration increased within 6 h following induction of pancreatitis, reached maximal levels (> 200 times control values) at 24-48 h, and decreased thereafter. In the intestinal tract, where PAP II is not expressed, the pattern of PAP III expression was comparable with that of PAP I; fasting induced a decrease in its mRNA concentration by more than 80%, which could be reversed within 6 h upon feeding. PAP III is therefore a new member of the PAP gene family, more closely related to the PAP I gene.
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PMID:Cloning, expression and chromosomal localization of the rat pancreatitis-associated protein III gene. 771 98

PAP is a pancreatic secretory protein expressed in the pancreas during the acute phase of pancreatitis. We have investigated the effect of the serum from rats with acute pancreatitis (SAP) on the expression of the PAP mRNA in AR-42J cells. PAP mRNA is strongly induced by SAP in a dose-dependent manner. This induction is abolished by preheating the SAP or diminished by treating the cells with cycloheximide. In addition, amylase but not actin mRNA expression was induced by a different SAP factor. We transfected the AR-42J cells with a chimeric gene containing 1.2 kbp 5'-flanking region of the PAP promoter linked to the CAT reporter gene. The CAT activity was significatively increased in the cells, on treating them with SAP. Our results show: first, SAP contains factors responsible for the PAP mRNA expression and secondly, the cis-acting elements are localized within the 1.2 kbp upstream region of the transcription initiation site.
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PMID:Serum from rats with acute pancreatitis induces expression of the PAP mRNA in the pancreatic acinar cell line AR-42J. 794 66

The immunohistochemical detection of lactoferrin was carried out with the PAP technique on pancreatic tissue samples of 23 patients, operated for acute (13) or chronic (4) pancreatitis as well as for adenocarcinomas (6). In order to control our immunohistochemical technique and the antisera produced by us we studied some tissue samples of human mammary gland and parotis. We detected lactoferrin in the glands of parotis and mammae as well as of their secretions. In the pancreatic tissue we found a positive reaction only in granulocytes of inflammatory areas with the exception of a luminal reaction on the surface of acinar cells in one case of pancreatic adenocarcinoma. We would like to interpret our results with the hypothesis of granulocytic origin of immunochemically detectable lactoferrin in the pancreatic juice of patients, especially in cases of chronic pancreatitis.
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PMID:Immunohistochemical detection of lactoferrin in different human glandular tissues with special reference to the exocrine pancreas. 827 35

Pancreatitis-associated protein I (PAP I) is a secretory protein first described as an acute phase reactant during acute pancreatitis. Recently, induction of the PAP I gene was also described in liver during hepatocarcinogenesis. To investigate the molecular mechanisms of this induction, we used constructs carrying progressive deletions of the PAP I promoter fused to the CAT gene. We showed that the silencer conferring tissue specificity on the PAP I gene was inactive in hepatoma cells. Then, in an vitro transcription system, we compared the transcription capacity of nuclear extracts from normal liver and HepG2 cells on constructs containing the silencer. The results confirmed that a trans-acting factor interacting with the PAP I silencer was present in liver cells and absent from hepatoma cells. On the other hand, immunohistochemistry showed that PAP I was expressed in a limited number of transformed hepatocytes. It was concluded that expression of PAP I in hepatocarcinoma occurred through inactivation of its silencer element and was not concomitant in all malignant cells. On that basis, we assayed PAP I in serum from patients with chronic hepatitis, liver cirrhosis or hepatocarcinoma. PAP I levels were normal in chronic active or persistent hepatitis, significantly higher in cirrhosis and strongly elevated in hepatocarcinoma. Because those clinical entities often develop in that sequence, serum PAP I appeared as a potential marker of hepatocarcinoma development.
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PMID:Mechanism of PAP I gene induction during hepatocarcinogenesis: clinical implications. 895 91

Since PAP is a stress protein expressed in human pancreas during pancreatitis but also constitutively synthesized in the small intestine, we looked whether its expression would be altered in patients with celiac disease. Serum PAP concentrations were determined consecutively in 54 patients with celiac disease on a free diet (group A), in 47 patients with celiac disease on a gluten-free diet (group B), in 22 patients with other intestinal pathologies but with normal intestinal mucosa (group C), in 14 patients with retarded growth, no gastrointestinal disease and normal intestinal mucosa (group D), and in 17 controls (group E). Serum PAP levels (ng/ml) were significantly higher in group A (127.3 +/- 56.8) than in the other groups (B: 47.2 +/- 20.5; C: 51.5 +/- 32.2; D: 47 +/- 22.8; E: 27.6 +/- 9.0), which were not different from each other. In group A, a positive correlation was observed between serum PAP values and antigluten antibody levels (vs. AGA IgG r = 0.58, p < 0.001; vs. AGA IgA r = 0.66, p < 0.001). Furthermore, 12 patients from group A were evaluated after 10-12 months of gluten-free diet and in all of them PAP serum concentration had decreased (mean +/- SE before the diet 122.5 +/- 36.4, after the diet 48.7 +/- 13.7, p < 0.0001). In addition, we performed an immunocytochemical study to localize PAP in the intestinal mucosa of patients from all groups except E. PAP was localized to the Paneth cells and to some globet cells, in patients with mucosal atrophy as well as in those with normal mucosa with no obvious quantitative difference. We concluded that in patients with celiac disease the active phase of the disease was accompanied by an increased serum concentration of PAP. Further studies are necessary to understand the mechanism leading to PAP elevation in the serum of patients with celiac disease.
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PMID:Pancreatitis-associated protein in patients with celiac disease: serum levels and immunocytochemical localization in small intestine. 914 97

Pancreatitis-associated protein I (PAP I) is a pancreatic secretory protein strongly expressed during acute pancreatitis in the rat and human. We hypothesized that its expression was part of a general and coordinated response of the organ against aggression. An opposite pattern of PAP I mRNA expression has recently been described in the mouse. The murine PAP I mRNA was described to be highly expressed in normal pancreas and down-regulated during pancreatitis. The important implications of these unexpected findings led us to investigate the expression of murine PAP I in cerulein-induced pancreatitis. Northern blot analysis demonstrated a very low level of PAP I mRNA in the healthy mouse pancreas and strong overexpression during acute pancreatitis. Western blot analysis confirmed that changes in pancreatic PAP I levels were parallel to those of the mRNA and the protein was localized by immunohistochemistry to the acinar cells. It was concluded that, during the course of acute pancreatitis, the pattern of PAP I expression in the mouse pancreas was comparable to that already observed in the rat and human. Although we have no explanation for the discrepancy between our results and those recently reported, the expression pattern of PAP I in the mouse exocrine pancreas described in the present study suggests that the pancreatic response to aggression might be conserved in mammals.
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PMID:Pancreatitis-associated protein is upregulated in mouse pancreas during acute pancreatitis. 964 77

The human hepatocarcinoma-intestine-pancreas/pancreatic-associated protein (HIP/PAP) gene was previously identified because of its increased expression in primary liver cancers and during the acute phase of pancreatitis. In normal tissues, HIP/PAP is expressed both in endocrine and exocrine cells of the intestine and pancreas. HIP/PAP is a lactose binding C-type lectin which acts as an adhesion molecule for rat hepatocytes. The aim of the work was to study the HIP/PAP secretory pathway and to produce high levels of HIP/PAP in the milk of lactating transgenic mice. In view of its lactose C-type lectin properties, we have studied the consequences of the expression of HIP/PAP on mammary epithelial cells. In homozygous mice, production reached 11.2 mg.mL-1 of milk. High levels of soluble and pure HIP/PAP (18.6 mg) were purified from 29 mL of milk. The purified protein was sequenced and the N-terminal amino acid of the mature HIP/PAP was identified as Glu27, thus localizing the site of cleavage of the signal peptide. The HIP/PAP transgene was only expressed in the mammary gland of lactating transgenic mice. HIP/PAP was detected by immunofluorescence in the whole gland, but labelling was heterogeneous between alveolar clusters, with strongly positive sparse cells. Using immuno electron microscopy, HIP/PAP was observed in all the compartments of the secretory pathway within the mammary epithelial cells. We provide evidence that HIP/PAP is secreted through the Golgi pathway. However, the number of distended Golgi saccules was increased when compared to that found in wild-type mouse mammary cells. These modifications could be related to HIP/PAP C-type lectin specific properties.
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PMID:High expression of the human hepatocarcinoma-intestine-pancreas/pancreatic-associated protein (HIP/PAP) gene in the mammary gland of lactating transgenic mice. Secretion into the milk and purification of the HIP/PAP lectin. 1071 97

Expression of the Cdx1 homeobox gene in epithelial intestinal cells promotes cellular growth and differentiation. Cdx1and the Pancreatitis Associated Protein I (PAP I) are concomitantly expressed in the epithelial cells of the lower part of the intestinal crypts. Because Cdx1 is a transcription factor and PAP I, in other tissues, is a proliferative factor, we looked for a relationship between these two proteins in the intestinal-derived IEC-6 cells. After stable transfection with a Cdx1 expression vector, they produce high levels of the PAP I transcript and protein indicating a functional link between the two genes. Demonstration of Cdx1 binding to the PAP I promoter region and suppression of PAP I induction after deletion of the corresponding sequence indicated that Cdx1 is a transcription factor controlling PAP I gene expression in intestinal cells. By infecting IEC-6 cells with adenoviruses expressing PAP I, we demonstrated that PAP I induces mitosis in these cells. On the other hand, inhibition of the PAP I expression in the IEC-6 Cdxl-expressing cells using an antisense strategy confirmed the requirement of this protein for the effect of Cdx1 on cell growth. Finally, addition of the immunopurified PAP I to the culture medium promotes cell growth of the IEC-6 cells in a dose-dependent manner. Maximal effect was obtained at 1 ng/ml. Taken together these results demonstrate that PAP I is a target of the Cdx1 homeobox gene in intestinal cells which participates in the regulation of intestinal cell growth via an autocrine and/or paracrine mechanism.
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PMID:Cdx1 promotes cellular growth of epithelial intestinal cells through induction of the secretory protein PAP I. 1130 20

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