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)

To investigate the pathogenesis of hereditary pancreatitis we determined whether pancreatic stone protein (PSP) gene was structurally altered in two independent families diagnosed as hereditary pancreatitis. Because, it has been shown that a decrease in the activity of PSP which inhibits CaCO3 crystal formation in pancreatic juice is closely related to the development of chronic calcifying pancreatitis. Southern blot analysis revealed neither a rearrangement nor a gross deletion of PSP gene in genomic DNA of affected members of both families. Furthermore, six exons of PSP gene amplified by polymerase chain reaction from genomic DNA was directly sequenced, while no apparent base mutation was observed. The immunohistochemical study utilizing monoclonal antibody to PSP showed the presence of immunoreactive PSP in the section of pancreatic tissue obtained from a patient affected with hereditary pancreatitis. However, the level of immunoreactive PSP in the remaining acinar cells of the patient pancreas was not reduced when compared with that of normal pancreas. Results, therefore, indicate that genetic alteration of PSP gene may not be responsible for the pathogenesis of hereditary pancreatitis.
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PMID:[Analysis of pancreatic stone protein gene of hereditary pancreatitis]. 157 8

A fluorometric immunoassay has been established to quantitate pancreatic stone protein providing a sensitivity for concentrations from 0.015 to 0.5 micrograms/mL. When concentrations of pancreatic stone protein were determined from pancreatic secretions obtained either from patients suffering from chronic pancreatitis (n = 31) [including the calcifying forms (n = 10)], pancreatic cancer (n = 22), or nonpancreatic diseases (n = 17), no significant differences were found. In contrast, increased concentrations were found in serum samples from patients with chronic (39/66) and acute pancreatitis (16/20) compared with control patients. The differences between these diagnostic groups and controls were highly significant (P less than 0.0001) and independent of pancreatic enzyme activity. Immunochemical analyses of serum pancreatic stone protein showed an isoelectric point (pH 9) similar to that reported for the pancreatic thread protein. With respect to recent communications, these data do not support the etiopathogenic role postulated for pancreatic stone protein in chronic pancreatitis and chronic calcifying pancreatitis by other investigators.
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PMID:Immunochemical characterization and quantitative distribution of pancreatic stone protein in sera and pancreatic secretions in pancreatic disorders. 188 8

To quantitate pancreatic stone protein (PSP), a competitive radioimmunoassay using monoclonal antibodies to PSP extracted from pancreatic stones and a sandwich enzyme-linked immunosorbent assay (ELISA) using monospecific polyclonal antibodies to the secretory forms of PSP (PSP S) were established. When PSP concentrations were measured in pancreatic juice by radioimmunoassay, no difference could be found between patients suffering from chronic calcifying pancreatitis and other diagnostic groups. Yet, with the ELISA technique involving polyclonal antibodies, decreased concentrations were found in chronic calcifying pancreatitis patients when compared to controls (p less than 0.001), chronic alcoholics without pancreatic symptoms, or obstructive pancreatitis patients. These discrepancies are discussed. The monoclonal antibodies recognizing the C-terminal part of PSS S (PSP S1), results from the radioimmunoassay indicate that the concentration of that polypeptide is identical in the juice of controls and patients. Results from the ELISA obtained with polyclonal antibodies raised against PSP S2-5 molecules, i.e., recognizing the PSP S1 part and the N-terminal portion of the molecule, indicate that the differences observed reflect differences in the juice concentration of that N-terminal peptide.
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PMID:Pancreatic stone protein: quantification in pancreatic juice by enzyme-linked immunosorbent assay and comparison with other methods. 251 Jan 47

The pancreatic stone protein and its secretory form (PSP-S) are inhibitors of CaCO3 crystal growth, possibly involved in the stabilization of pancreatic juice. We have established the structure of PSP-S mRNA and monitored its expression in chronic calcifying pancreatitis (CCP). A cDNA encoding pre-PSP-S has been cloned from a human pancreatic cDNA library. Its nucleotide sequence revealed that it comprised all but the 5' end of PSP-S mRNA, which was obtained by sequencing the first exon of the PSP-S gene. The complete mRNA sequence is 775 nucleotides long, including 5'- and 3'- noncoding regions of 80 and 197 nucleotides, respectively, attached to a poly(A) tail of approximately 125 nucleotides. It encodes a preprotein of 166 amino acids, including a prepeptide of 22 amino acids. No overall sequence homology was found between PSP-S and other pancreatic proteins. Some homology with several serine proteases was observed in the COOH-terminal region, however. The mRNA levels of PSP-S, trypsinogen, chymotrypsinogen, and colipase in CCP and control pancreas were compared. PSP-S mRNA was three times lower in CCP than in control, whereas the others were not altered. It was concluded that PSP-S gene expression is specifically reduced in CCP patients.
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PMID:Secretory pancreatic stone protein messenger RNA. Nucleotide sequence and expression in chronic calcifying pancreatitis. 252 67

There are two different forms of chronic pancreatitis: one is obstructive pancreatitis which results from a pre-existing obstacle (usually a tumour or a scar) and the other, much more frequent, is chronic calcifying pancreatitis which seems to begin with the formation of precipitates in acini and ducts, later transformed into stones and calcifications made up of calcium carbonate, and therefore is a pancreatic lithiasis. Since the pancreatic juice is supersaturated in calcium carbonate, the presence of an inhibitor of crystallization must be postulated. This has now been identified as a 13500 daltons molecular weight protein: the pancreatic stone protein secreted by the acinar cells. This protein is decreased in chronic calcifying pancreatitis irrespective of its origin (alcoholic, hereditary, hypercalcaemic, tropical, idiopathic), although its reduction is unrelated to any of these aetiological factors. Chronic alcohol consumption may encourage calcium stone formation possibly by disturbing the cholinergic regulation of pancreatic secretion, with decrease in citrate secretion (citrate is a chelator of calcium) and increase in enzyme secretion. The diagnostic and therapeutic implications of these findings are already obvious.
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PMID:[Chronic calcifying pancreatitis, pancreatic calculi. New data]. 293 79

The tropical calcifying pancreatitis and/or fibrous pancreatitis are responsible for a number of cases of juvenile insulin-dependent diabetes in the Third World countries. World wide distributed in the tropical areas of Asia, Africa and South America, they can also be observed in Europe, in migrants from these countries. Intensive epidemiological and biochemical studies are currently developed in order to shed light on the many obscure points. Classification of the typical calcifying pancreatitis and the related syndromes is a matter of debate. The pathological basis is calcification of the pancreas and echography of the gland may become a cheap convenient relatively specific tool for epidemiology. The clinical syndrome consists of chronic painful pancreatic episodes since childhood, associated with pancreatic exocrine insufficiency, followed by the onset, during adolescence, of diabetes mellitus, which is most of the times insulin dependent. Patients' history is free of chronic alcoholism, but includes constantly chronic caloric and proteic malnutrition. Although insulin dependent this diabetes in not prone to ketosis, due presumably to carnitine deficiency and relative glucagon deficiency (or suppressibility). Insulin resistance is traditionally noted, the pathophysiology of which is unknown. The mechanism of calcification appearance is also undetermined. Either a deficiency in pancreatic stone protein, or the toxic effect of cyanogen glucosides present in cassava and other tropical foodstuffs, or the malnutrition-related deficiency in sulphur-containing aminoacids may be causal factors. No valid experimental model of the disease is available.
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PMID:[Diabetogenic tropical pancreatitis]. 304 66

Chronic calcifying pancreatitis (CCP) is characterized by the presence of stones in pancreatic ducts. Calcium carbonate (CaCO3) is the main constituent of stones, to which is associated an organic matrix consisting primarily of one protein of Mr 14,000, the pancreatic stone protein or PSP. PSP is not present as such in pancreatic juice, but in polymorphic forms with higher molecular weights. These secretory forms (PSP S2-5, Mr 16-19,000) are synthesized in the acinar cells of the pancreas and secreted along the same secretory pathway as the exocrine enzymes. The heterogeneity of the forms of higher Mr (PSP S2-5) is probably due to different glycosylation patterns. PSP and PSP S1 are generated by the cleavage of an Arg-Ile bond in the N-terminal part of PSP S2-5. The N-terminal sequence of PSP (40 amino acids) is identical to that of PSP S1, whose complete sequence (133 amino acids) has been determined. Yet, the two proteins differ by their pI. Pancreatic juice is normally supersaturated in CaCO3, suggesting the presence of a stabilizer preventing CaCO3 precipitation. The PSP S could play that role, since an activity inhibiting the nucleation and growth in vitro of CaCO3 crystals was found in pancreatic juice, associated with these proteins. Moreover, PSP S concentration was significantly lower in the pancreatic juice of patients with CCP than in control patients. Proteins homologous to PSP S were also found in the dog, rat, swine, monkey and ox. They constitute a new family of pancreatic secretory proteins, whose biological role would be to maintain pancreatic juice in a stable state towards CaCO3.
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PMID:The human pancreatic stone protein. 314 13

The most current form of chronic pancreatitis, i.e. chronic calcifying pancreatitis, is often related to nutritional causes. This disease is characterized by formation within the pancreatic ducts and the lumina of accini of precipitates and calculi composed of calcium carbonate and of a newly discovered protein, the pancreatic stone protein (PSP). The formation of precipitates depends on two mechanisms: (1) a non etiological disorder reducing the secretion of PSP. This small phosphoglycoprotein is a calcium stabilizer which prevents the crystallization of calcium carbonate in a super saturated solution such as pancreatic juice, (2) modifications of the pancreatic juice related to the cause of the disease. In Occidental countries the main etiological factor is alcohol consumption associated with protein-and-fat-rich or fat-poor diets. Like hypercalcaemia, another cause of the disease, a chronic consumption of alcohol increases the pancreatic secretion of secretory proteins (enzymes) via its action on the cholinergic nerves. In some tropical countries, chronic pancreatitis is observed in children and associated to malnutrition. However, according to recent studies neither kwashiorkor nor manioc consumption seem to be responsible for the occurrence of this disease.
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PMID:[Etiopathogenesis of chronic nutritional pancreatitis]. 330 3

In recent studies performed on pancreatic stones from patients with alcoholic pancreatitis, a novel secretory protein was identified: the pancreatic stone protein (PSP Mr 14,000). This protein suppresses CaCO3 precipitation, and could therefore stabilize normally supersaturated pancreatic juice. Crystallographic analysis of stones from patients with nutritional pancreatitis (NP), as well as alcoholic pancreatitis (AP), revealed that the main constituent was calcite (CaCO3). In the present study, we investigated the organic matrix of NP stones. In the 14 cases studied, the organic matrix was rendered soluble after mineral dissolution with EDTA + citrate. Analysis of the isolated matrix revealed the presence of one major protein (Mr 14,000), and of a minor protein (Mr 30,000), which is in fact an aggregate form of the 14,000 Mr protein. Using PSP antibodies, complete immunological identity was found between PSP, the immunoreactive form of PSP present in nonactivated pancreatic juice, and the protein matrix of NP stones. Moreover, protein matrix of NP stones also inhibited the nucleation of CaCO3 crystal, and decreased their growth rate in vitro. The presence of PSP in all AP and NP stones suggests that it plays a key role in stone formation during the course of chronic pancreatitis. These results also suggest the existence of some pathophysiological links between these two apparently different etiological forms of calcifying pancreatitis.
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PMID:Organic matrix of pancreatic stones associated with nutritional pancreatitis. 338 20

Pancreatic stones that were removed from the pancreatic ducts of patients with chronic calcifying pancreatitis were decalcified so the organic matrix could be studied by scanning and transmission electron microscopy. The observations made by scanning electron microscopy were compared with those made on undecalcified stones, and the findings were correlated with light microscopic observations. After the calcium carbonate was removed, the stones consisted of multiple partitions arranged like a sponge. They were embedded in a gel-like matrix. The organic partitions frequently were composed of dense surface layers and sparse central reticular accumulations, which had surrounded and bound calcium carbonate crystals. The organic matrix was heterogeneous in texture. Some areas had dense, regular, proteinaceous fibrous material. Deposits resembling fibrin were observed. Altered cellular constituents appeared to make up minor portions of the matrix. Calcium carbonate, which was precipitated in vitro in pancreatic juice, resembled the morphology of pancreatic stones more than that of pure calcium carbonate crystals. These results are consistent with the coformation of pancreatic stones from constituents in the pancreatic juice [including pancreatic stone protein (PSP), glycosaminoglycans, and occasional cells] and precipitated calcium carbonate.
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PMID:Fine structure of the organic matrix of human pancreatic stones. 357 6


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