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Query: UMLS:C0030305 (
pancreatitis
)
16,014
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chronic pancreatitis is defined by a persistent destruction of the pancreatic parenchyma replaced by fibrosis. The lesions generally start in the exocrine gland, islets being attacked later in the fibrosis. The two most frequent forms are: 1. Chronic calcifying
pancreatitis
which is a pancreatic lithiasis responsible for more than 95% of chronic pancreatitis. In its most frequent form, calculi are built up of more than 98% calcium salts together with fibres of a degraded residue of
lithostathine
, a secretory protein. This disease is related (i) in most countries to alcohol, protein, fat and tobacco and (ii) in certain tropical countries to malnutrition (low-fat, low-protein diet) for some generations. A causative role for cassava and kwashiorkor is improbable. The mechanism of calcium precipitation is partly explained by the calcium-saturation of pancreatic juice and the decreased biosynthesis of
lithostathine
S, the secretory protein preventing crystallization. As a rule, diabetes (and steatorrhoea) appear after a clinical evolution characterized by recurrent attacks of upper abdominal pain, generally lasting some days with transiently increased concentrations of pancreatic enzymes in serum. When diabetes appears, pain frequently disappears. Complications are mostly observed in the first 10 years of clinical evolution. 2. Obstructive
pancreatitis
is due to an obstacle (tumours, scars) in the pancreatic duct. It is rarely a cause of diabetes. Diabetes due to chronic pancreatitis is characterized by the low incidence of ketosis and the high incidence of insulin-induced hypoglycaemia. Patients are generally thin. Serum insulin levels, either basal or stimulated, are decreased. Glucagon is less affected. Angiopathies and retinopathies are less frequent than in non-insulin-dependent diabetes. Neural complications are fairly frequent. The diagnosis is generally easy because diabetes appears at a late stage of the disease. The treatment generally requires insulin.
...
PMID:Chronic pancreatitis and diabetes. 144 67
We investigated pancreatic gene expression in the rat in response to taurocholate-induced acute pancreatitis. Concentrations of transcripts encoding pancreatic protein showed noncoordinated alterations. Contents in amylase, trypsinogen I, chymotrypsinogen B, elastase 1, and procarboxypeptidase A mRNAs decreased by greater than 50% during the acute phase (days 0-2), whereas actin and
lithostathine
mRNAs increased 5 and 0.6 times, respectively, and pancreatitis-associated protein (PAP) mRNA increased greater than 200 times, indicating redirection of the pattern of gene expression. Synthesis of pancreatic proteins was also altered in a noncoordinated manner. During the acute phase, it decreased more for trypsinogen I and chymotrypsinogen B than for amylase and lipase, whereas synthesis of the PAP increased dramatically. For amylase and chymotrypsinogen B, we compared the patterns of changes in mRNA concentrations, rates of synthesis, and pancreatic contents. Changes in enzyme contents and synthetic rates were temporally correlated during the acute phase. On the contrary, changes in mRNA concentrations and enzyme synthesis were not coordinated, suggesting that control of synthesis partly occurred at the posttranscriptional level. It was concluded that induction of
pancreatitis
is accompanied by transcriptional and posttranscriptional modifications resulting in rapid and massive rearrangement of the pattern of pancreatic protein gene expression.
...
PMID:Pancreatic gene expression is altered during acute experimental pancreatitis in the rat. 171 58
Impaired secretion of
lithostathine
, a pancreatic glycoprotein capable of inhibiting the growth of CaCO3 crystals, has been reported in chronic calcifying
pancreatitis
. Controversial results were obtained, however, using immunoassays with different antibodies. The aim of this study was to purify and to measure juice
lithostathine
by a non-immunological method. Fast protein liquid chromatography (FPLC) on a cation exchange column eluted by a sodium chloride gradient, was used. The conditions appropriate to separate secretory (S) from hydrolysed (H) isoforms of immunopurified
lithostathine
were also used for juice analysis. Pancreatic juice was collected by endoscopic cannulation of the major pancreatic duct, after secretin stimulation, from eight patients with chronic pancreatitis (CP) and from eight controls. In all samples, S-isoforms of
lithostathine
(ranging from 16 to 19 Mr at SDS-PAGE) were the only constituent of two of the 15 peaks in which FPLC resolved the pancreatic proteins. The nature of these two peaks was confirmed by their coelution with immunopurified S-
lithostathine
and by immunoblot analysis with polyclonal anti-
lithostathine
antibodies. The ratio between the area of S-
lithostathine
peaks and the total area of proteic eluates, was always lower in CP patients (5.3 micrograms/mg of protein, median value; 0.2-15.4, range) than in controls (35.2 micrograms/mg; 16.6-55.9). It is concluded that
lithostathine
can be purified and measured in pancreatic juice by FPLC. Our results with a nonimmunological assay confirm a reduced secretion of
lithostathine
in patients with CP.
...
PMID:Purification and assay of secretory lithostathine in human pancreatic juice by fast protein liquid chromatography. 773 74
Pancreatic stones of patients with chronic calcifying
pancreatitis
(CCP) are mostly made up of CaCO3 crystals. Formation and growth of such crystals is inhibited in vitro by
lithostathine
, a protein present in normal pancreatic juice. Decreased
lithostathine
activity was therefore suspected in patients with CCP, but comparison by immunoassay of
lithostathine
concentrations in the pancreatic juices of patients and controls led to conflicting results. This study shows that these discrepancies might have been caused in part by a remarkably high susceptibility of the protein to trypsin like cleavage, resulting in important structural changes and concomitant modifications of the epitopes. A novel
lithostathine
assay in juice was developed, based on separation of secretory proteins by high performance liquid chromatography. The chromatographic separation of
lithostathine
was based on hydrophobic interactions at pH 5.0 using a Phenyl-TSK column. This study showed with this assay that
lithostathine
concentrations (microgram/mg of total protein) were similar in CCP patients with alcoholic aetiology (mean (SD) 6.3 (2.7)) and other aetiologies (7.2 (3.7)), but one third of those estimated in patients without pancreatic disease (16.7 (4.3)). Similar concentrations were found, however, in chronic alcoholic patients without CCP (6.6 (3.3)) and in patients with CCP. It was concluded that decreased
lithostathine
concentration is associated with CCP, although such a decrease is not sufficient by itself for the disease to occur.
...
PMID:Quantification of human lithostathine by high performance liquid chromatography. 773 75
Pancreatitis
-associated protein (PAP) is a secretory pancreatic protein present in small amounts in normal pancreas and overexpressed during the acute phase of the
pancreatitis
. In this paper, we describe the cloning, characterization, and chromosomal mapping of the human PAP gene. The gene spans 2748 bp and contains six exons interrupted by five introns. The gene has a typical promoter containing the sequences TATAAA and CCAAT 28 and 52 bp upstream of the cap site, respectively. We found striking similarities in genomic organization as well as in the promoter sequences between the human and rat PAP genes. The human PAP gene was mapped to chromosome 2p12 using rodent-human hybrid cells and in situ chromosomal hybridization. This localization coincides with that of the reg/
lithostathine
gene, which encodes a pancreatic secretory protein structurally related to PAP, suggesting that both genes derived from the same ancestral gene by duplication.
...
PMID:Molecular cloning, genomic organization, and chromosomal localization of the human pancreatitis-associated protein (PAP) gene. 818 10
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.
...
PMID:Induction of lithostathine/reg mRNA expression by serum from rats with acute pancreatitis and cytokines in pancreatic acinar AR-42J cells. 865 87
We report 11 families of hereditary
pancreatitis
characterized by the presence of calculi in pancreatic ducts. These were classified as (1) calcic lithiasis (one family with five cases), in which the calculi are composed of >95% calcium salts; and (2) protein lithiasis in 10 families, in which the calculi are composed of degraded amorphous residues of
lithostathine
, the pancreatic secretory protein that inhibits calcium salt crystallization. In both forms, transmission appears to be dominant. The average age at clinical onset of symptoms is 15 years. The clinical progression seems to be less severe than in alcoholic chronic pancreatitis (alcoholic calcic lithiasis). This report shows for the first time that hereditary chronic pancreatitis is a group of at least two diseases having a similar clinical picture and pathological features but different chemical compositions of calculi. This leads us to propose a revised Marseille-Rome classification.
...
PMID:Two forms of hereditary chronic pancreatitis. 872 Jun 59
Lithostathine may play a physiological role in preventing the precipitation of excess calcium in the pancreatic juice. The hypothesis has been advanced that in chronic calcifying
pancreatitis
the abnormal biosynthesis of
lithostathine
might be the original defect to which genetic proneness to the disease may be ascribed. The aim of the present work was to study
lithostathine
messenger RNA expression in the pancreas of patients with different types of
pancreatitis
. Lithostathine and chymotrypsinogen mRNA were determined in surgical specimens obtained from the pancreases of the following subjects: (a) 13 patients with chronic alcoholic pancreatitis (84.6% calcified); (b) 4 patients with chronic hereditary
pancreatitis
(all calcified); (c) 6 patients with chronic obstructive
pancreatitis
(4 calcified); and (d) 27 subjects suffering from pancreatic cancer. Significantly lower concentrations of both mRNAs were found in the pancreases of chronic pancreatitis patients than in non-cancerous tissue from pancreatic cancer subjects. However, about 70% of the pancreatic cancer subjects showed
lithostathine
and chymotrypsinogen mRNA levels comparable to those of chronic pancreatitis patients. These results indicate that the decrease in the level of mRNA is not specific to
lithostathine
and it is unrelated to the presence of pancreatic stones.
...
PMID:Lithostathine messenger RNA expression in different types of chronic pancreatitis. 974 20
Lithostathine is a calcium carbonate crystal habit modifier. It is found precipitated under the form of fibrils in chronic calcifying
pancreatitis
or Alzheimer's disease. In order to gain better insight into the nature and the formation of fibrils, we have expressed and purified recombinant
lithostathine
. Analytical ultracentrifugation and quasi-elastic light scattering techniques were used to demonstrate that
lithostathine
remains essentially monomeric at acidic pH while it aggregates at physiological pH. Analysis of these aggregates by electron microscopy showed an apparently unorganized structure of numerous monomers which tend to precipitate forming regular unbranched fibrils. Aggregated forms seem to occur prior to the apparition of fibrils. In addition, we have demonstrated that these fibrils resulted from a proteolysis mechanism due to a specific cleavage of the Arg(11)-Ile(12) peptide bond. It is deduced that the NH(2)-terminal undecapeptide of
lithostathine
normally impedes fiber formation but not aggregation. A theoretical model explaining the formation of amyloid plaques in neurodegenerative diseases or stones in lithiasis starting from
lithostathine
is described. Therefore we propose that
lithostathine
, whose major function is unknown, defines a new class of molecules which is activated by proteolysis and is not involved in cytoskeleton nor intermediate filament functions.
...
PMID:Biophysical characterization of lithostathine. Evidences for a polymeric structure at physiological pH and a proteolysis mechanism leading to the formation of fibrils. 1042 94
Pancreatic stone protein (PSP; reported in 1979), pancreatitis-associated protein (PAP; 1984) and regenerating protein (Reg I; 1988) were discovered independently in the fields of the exocrine (
pancreatitis
) and endocrine (diabetes) pancreas. Subsequent analysis revealed that PSP and Reg I are identical and PAP belongs to the same protein family. PSP/Reg I and PAP share a selective and specific trypsin cleavage site and result in insoluble fibrils (PTP, PATP). Search for a functional role of PSP had led to the idea that it might serve as an inhibitor in pancreatic stone formation and PSP was renamed
lithostathine
. Inhibitory effects of
lithostathine
in stone formation have been questioned. Evidence so far obtained can support a lithogenic role rather than a lithostatic role of PSP. PAP and its isoforms have been investigated mainly regarding responses to inflammation and stress. Reg I and its isoforms have been examined on regeneration, growth and mitogenesis in gastrointestinal neoplastic diseases as well as diabetes. Evidence obtained can be applied in the prediction of prognosis and therapy for inflammatory and neoplastic diseases.
...
PMID:Pancreatic stone protein/regenerating protein family in pancreatic and gastrointestinal diseases. 2180 74
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