Gene/Protein
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Target Concepts:
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Query: UMLS:C0030305 (
pancreatitis
)
16,014
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pancreatitis
-associated protein (PAP), a secretory acute-phase protein of the pancreatic acinar cell, is highly up-regulated early in acute pancreatitis. PAP expression returns to undetectable levels when the pancreas recovers. In the rat, three isoforms of PAP are known, all of which are upregulated during acute pancreatitis. Their functions remain obscure.
Pancreatic stone protein
(PSP/reg), which shows strong sequence homology to PAP, is secreted into pancreatic juice under physiologic and pathologic conditions. PSP/reg is highly susceptible to trypsin cleavage at its ARG11-ILE12 bond. Cleavage results in an N-terminal undecapeptide and a C-terminal peptide called
pancreatic thread protein (PTP)
.
PTP
forms oligomeric fibrillar structures, which spontaneously sediment in vitro.
PTP
can be found in protein plugs or stones from patients with chronic pancreatitis. Rat PAP contains a trypsin cleavage site at the same position as PSP/reg. We hypothesize that PAP is susceptible to tryptic cleavage, and that the C-terminal cleavage product of PAP spontaneously precipitates at neutral pH. To test our hypothesis, we generated and purified recombinant PAP. Here we report the production of rat PAP I, II, and III in a yeast expression system using Pichia pastoris. We demonstrate in vitro the tryptic cleavage of rat PAP and the formation of a spontaneously precipitating peptide, which we call
pancreatitis
-associated thread protein (PATP). PATP displays pH-dependent solubility characteristics very similar to those of
PTP
.
...
PMID:Conformational changes of pancreatitis-associated protein (PAP) activated by trypsin lead to insoluble protein aggregates. 1124 74
A group of 16-kDa proteins, synthesized and secreted by rat pancreatic acinar cells and composed of
pancreatic stone protein
(PSP/reg) and isoforms of pancreatitis-associated protein (PAP), show structural homologies, including conserved amino acid sequences, cysteine residues, and highly sensitive N-terminal trypsin cleavage sites, as well as conserved functional responses in conditions of pancreatic stress. Trypsin activation of recombinant stress proteins or counterparts contained in rat pancreatic juice (PSP/reg, PAP I and PAP III) resulted in conversion of 16-kDa soluble proteins into 14-kDa soluble isoforms (
pancreatic thread protein
and
pancreatitis
-associated thread protein, respectively) that rapidly polymerize into insoluble sedimenting structures. Activated thread proteins show long lived resistance to a wide spectrum of proteases contained in pancreatic juice, including serine proteases and metalloproteinases. In contrast, PAP II, following activation with trypsin or pancreatic juice, does not form insoluble structures and is rapidly digested by pancreatic proteases. Scanning and transmission electron microscopy indicate that activated thread proteins polymerize into highly organized fibrillar structures with helical configurations. Through bundling, branching, and extension processes, these fibrillar structures form dense matrices that span large topological surfaces. These findings suggest that PSP/reg and PAP I and III isoforms consist of a family of highly regulated soluble secretory stress proteins, which, upon trypsin activation, convert into a family of insoluble helical thread proteins. Dense extracellular matrices, composed of helical thread proteins organized into higher ordered matrix structures, may serve physiological functions within luminal compartments in the exocrine pancreas.
...
PMID:A family of 16-kDa pancreatic secretory stress proteins form highly organized fibrillar structures upon tryptic activation. 1127 30
The present review is focused on the clinical significance of lactoferrin in pancreatic secretions and stone formation in chronic pancreatitis, and of serum anti-lactoferrin antibody in autoimmune
pancreatitis
. Lactoferrin secretion is increased in pancreatic secretions in calcified and non-calcified chronic pancreatitis. Lactoferrin,
pancreatic stone protein
and trypsin are present in pancreatic stones. We cannot conclude which protein is more important for the precipitate and stone formation. The presence of antilactoferrin antibody has been reported in serum in autoimmune diseases, such as autoimmune
pancreatitis
. The coincidental appearance of autoimmune
pancreatitis
with extrapancreatic autoimmune diseases strongly suggests a common autoimmune mechanism and lactoferrin is a candidate antigen. Lactoferrin may play an important role as a precipitate protein in pancreatic stone formation in chronic pancreatitis and as an autoantigen in autoimmune
pancreatitis
. Further studies are required to better understand the role of lactoferrin.
...
PMID:Lactoferrin in chronic pancreatitis. 1945 13
Although the pancreatic regenerating (reg) gene, was first isolated from a rat regenerating islets in 1988, its protein product was originally described in the 1970s. Reg proteins arise from a multigene family with three subtypes, and have a protein structure similar to calcium dependent lectins. Reg I and II have been implicated in control of pancreatic development and may play a role in maintenance of the beta-cell mass in the mature pancreas. Administration of
reg I protein
has been used in experimental animals as a therapy for surgically-induced diabetes mellitus. Reg I protein is also an inhibitor of calcium carbonate crystalization, important in maintaining the fluidity of pancreatic juice. The reg III gene, whose protein product is pancreatitis associated protein, is induced during pancreatic inflammation. Serum levels of reg III protein are a sensitive marker of severity of
pancreatitis
. It is an endogenous pancreatic factor that prevents the bacteria infection and scavenges oxygen-derived free radicals. Reg mRNA has been detected in non-pancreatic tissue such as the enterochromaffin-like cells of the stomach, neoplastic tissues of the colon, the small intestine, nervous system, liver tumors, and pituitary. Reg proteins are mitogens to intestinal epithelial cells, pancreatic ductal, beta cells, and Schwann cells, and are likely important to the overall integrity of the pancreas and gastrointestinal tract.
...
PMID:A Brief History of Pancreatic Reg: Implications as to its Clinical Importance. 2168 11
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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