Involvement of REG Ialpha protein in the regeneration of ductal epithelial cells in the minor salivary glands of patients with Sjogren's syndrome.
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Administration of anti-Reg I and anti-PAPII antibodies worsens pancreatitis.
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CONTEXT: The regeneration protein family (Reg), which includes Reg I and PAPII, is expressed in pancreas acinar cells, and increases in acute pancreatitis. We have demonstrated that Reg gene knockdown worsens severity of acute pancreatitis in the rat and hypothesize that the proteins offer a protective effect in this disease. OBJECTIVE: We investigated the ability of anti-Reg and anti-PAP antibody to neutralize pancreatic Reg protein and affect pancreatitis severity. INTERVENTION: Pancreatitis was induced in rats by retrograde ductal injection of 4% sodium taurocholate. ANIMALS: Eighty-four rats: 48 with induced pancreatitis, 30 sham operated, and 6 normal animals. SETTING: Intraductal anti-Reg I and/or anti-PAPII antibody was administered at induced pancreatitis and sham operated subgroups of 6 rats each. MAIN OUTCOME MEASURE: Serum and pancreata were harvested 24 and/or 48 hours later and assessed for pancreatitis severity by pancreatic wet weight, serum C-reactive protein (CRP), amylase, PAPII levels, and histopathology. RESULTS: Animals induced with pancreatitis with administration of anti-Reg/PAP antibodies had significantly higher wet weights compared with taurocholate and histopathological analysis revealed that anti-Reg/PAP treated animals had worse tissue inflammation and necrosis compared with controls. Serum CRP, amylase, and Reg levels did not significantly differ between experimental and sham control groups. CONCLUSIONS: Administration of anti-Reg/PAP antibody worsened taurocholate-induced organ specific pancreatitis. These data suggest that the Reg family of proteins is protective in acute pancreatitis. (+info)
Expression profile of REG family proteins REG Ialpha and REG IV in advanced gastric cancer: comparison with mucin phenotype and prognostic markers.
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Pancreatic regenerating gene I and acinar cell differentiation: influence on cellular lineage.
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OBJECTIVES: Pancreatic regenerating gene I (reg I) has been implicated in cellular differentiation. Acinar cells can transdifferentiate into other pancreatic-derived cells, and we postulated that changes in intracellular levels of reg I would affect the state of differentiation. METHODS: We transfected AR42J cells with a plasmid containing the entire coding sequence of reg I and isolated clones with complementary DNA in sense (SS) or antisense (AS) orientation. Levels of messenger RNA (mRNA) and protein expression were examined by Western blotting and real-time polymerase chain reaction. RESULTS: Expression of reg I was confirmed in SS or AS clones. AR42J transfected with SS demonstrated more acinarlike phenotype, whereas those transfected with AS showed a less differentiated state. Specifically, amylase mRNA and protein levels increased in SS cells, whereas AS cells showed increased pancreatic and duodenal homeobox 1 (Pdx1) and insulin mRNAs and cytokeratin protein. Conversely, cytokeratin and Pdx1 were depressed in SS cells. CONCLUSIONS: These data demonstrate that in acinar cells, reg I overexpression is linked to acinar cell differentiation, whereas inhibition of reg I leads to beta cell and possibly ductal phenotype. Reg I expression in acinar cells is important in maintaining pancreatic cell lineage, and when decreased, cells can dedifferentiate and move toward becoming other pancreatic cells. (+info)
Rat pancreatic stone protein messenger RNA. Abundant expression in mature exocrine cells, regulation by food content, and sequence identity with the endocrine reg transcript.
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We used a cDNA encoding the human pancreatic stone protein (PSP-S), the secretory inhibitor of CaCO3 crystal growth, as a probe for cloning rat PSP-S messenger RNA. Overlapping clones gave a mRNA sequence of 783 nucleotides encoding a preprotein of 165 amino acids including a prepeptide of 21 amino acids. Rat and human PSP-S showed 70% identity, and the mature proteins had the same length. PSP-S mRNA concentration was measured in the pancreas of rats adapted to diets containing 15, 25, or 70% protein. Compared with the 15% protein diet, concentration increased 3 and 12 times with the diets with 25 and 70% protein, respectively, which is 3 times higher than for serine proteases. A complete sequence identity was observed between the rat PSP-S transcript and the reg mRNA described by Terazono et al. (Terazono, K., Yamamoto, H., Takasawa, S., Shiga, K., Yonemura, Y., Tochino, Y., and Okamoto, H. (1988) J. Biol. Chem. 263, 2111-2114), which is expressed in regenerating pancreatic islets but not in mature islets. A specific role of the reg protein in islet regeneration was suggested. We found that PSP-S (reg) mRNA concentration was indeed increased in isolated regenerating islets. Yet, a transient increase was also observed in exocrine tissue during the initial phase of regeneration following pancreatectomy or acute pancreatitis, suggesting increased expression during cell dedifferentiation. It is concluded that, in mature pancreas, expression of the reg/PSP-S gene occurs primarily in acinar cells. The gene product, which encodes a secretory protein inhibiting CaCO3 crystal growth in juice, is unlikely to play a specific role in islet regeneration. (+info)