The human pancreatic stone protein

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.     

Characterization in rat pancreatic juice of a protein homologous to the human pancreatic stone protein

1. The pancreatic stone protein (PSP, Mr 15,000) which has been discovered in human calculi derives from the native glycosylated forms of the protein (Mrs 17,500-22,000) which are present in human pancreatic juice through tryptic cleavage of the Arg 11-Ile 12 bond. 2. In the present study, a homologous native form of the protein (Mr 17,000) was purified from rat pancreatic juice. 3. Its N-terminal amino acid sequence was found to display a high degree of homology with that of the human native protein forms, apart from the fact that it was not glycosylated. 4. In rat as in human, tryptic cleavage of the Arg 11-Ile 12 bond transforms a soluble protein into one which is practically insoluble at neutral pH.     

N-terminal sequence extension in the glycosylated forms of human pancreatic stone protein. The 5-oxoproline N-terminal chain is O-glycosylated on the 5th amino acid residue

The pancreatic stone protein isolated from human calculi (PSP) derives from the immunoreactive protein forms detected in human pancreatic juice (PSP S2-5) through the tryptic cleavage of the Arg-11-Ile-12 bond. Among the eleven amino acids of the PSP S2-5 N-terminal extension Z-E-A-Q-T-E-L-P-Q-A-R, the first residue is an oxoproline and the fifth, a threonine, bears the single carbohydrate chain of the protein molecules. Variations in the glycan chain composition account for the differences in the Mr of PSP S2-5. The PSP S2-5 forms are very soluble in aqueous solutions between the pH values 5.0-9.0, whereas the proteolysated form is scarcely soluble.     

胰腺应激蛋白PSP/reg抑制胰腺星状细胞TIMPs:MMPs及RECK表达

目的 观察胰腺应激蛋白PSP/reg对胰腺星状细胞(PSC)合成和分泌基质金属蛋白酶(MMPs)及其组织抑制剂(TIMPs)以及RECK表达的影响.方法 分离纯化慢性胰腺炎患者纤维化区的PSC,基因重组胰腺应激蛋白PSP/reg,以终浓度为10和100 ng/mL对PSC进行干预,实时荧光定量PCR检测MMP1/2、TIMP1/2及RECK基因表达,Western blot测定MMP1/2、TIMP1/2及RECK蛋白,细胞免疫荧光观察细胞膜表面RECK分布.结果 PSP/reg对MMP1/2、TIMP1/2及RECK表达无明显影响;PSP/reg轻度抑制PSC培养上清中MMP2水平(P＜0.05),而显著抑制TIMP1/2水平(P ＜0.01);PSC细胞膜表面发现有RECK蛋白,PSP/reg减少PSC的RECK含量(P＜0.01).结论 胰腺应激蛋白PSP/reg能够降低TIMPs:MMPs比率、减少RECK蛋白水平表达,从而解除对MMPs的部分抑制,使MMPs活性相对增高,有利于纤维化的分解消散,促进胰腺损伤后的再生修复.     

Structure of a precursor to human pancreatic polypeptide

We have isolated mRNA from a human pancreatic islet cell tumor and have identified among the cell-free translation products a precursor of pancreatic polypeptide with an approximate Mr = 11,000. Recombinant DNA molecules encoding this precursor were selected from a cDNA library prepared from the islet tumor mRNA. From the nucleotide sequences of cDNAs encoding the precursor, we have deduced the complete amino acid sequence of pre-propancreatic polypeptide. These sequences encode a protein consisting of 95 amino acid residues with a Mr = 10,432. The sequence of human pancreatic polypeptide occurs in the middle of the precursor and is flanked at its carboxyl terminus by a 27-amino acid sequence which is similar to a peptide previously isolated from canine pancreatic islets. At the amino terminus of the precursor is a probable leader sequence which is rich in hydrophobic residues. A smaller pancreatic polypeptide-related protein was generated in cell-free translations of mRNA supplemented with microsomal membranes. Sequential Edman degradations of this smaller peptide indicate that the sequence of pancreatic polypeptide is located at the amino terminus of the prohormone.     

Growth stimulatory effect of pancreatic spasmolytic polypeptide on cultured colon and breast tumor cells

The effects of a novel polypeptide, pancreatic spasmolytic polypeptide (PSP) on a colon carcinoma cell line (HCT 116) were examined. PSP stimulated the incorporation of [3H]thymidine into HCT 116 cells as well as cell proliferation in a dose-dependent manner. Maximal increase in [3H]thymidine incorporation of 50-60% occurred at 3-300 microM PSP. The VIP-mediated-increase in cAMP levels was reduced by PSP at greater than 1 microM concentrations. PSP is highly homologous to the estrogen-induced pS2 protein in MCF-7 breast cancer cells. We find that PSP also enhanced [3H]thymidine incorporation in MCF-7 cells. These findings indicate for the first time that PSP has growth stimulatory properties.     

Phosphorylation of a pancreatic zymogen granule membrane protein by endogenous calcium/phospholipid-dependent protein kinase

The occurrence of phospholipid-sensitive calcium-dependent protein kinase (referred to as C kinase) and its endogenous substrate proteins was examined in a membrane preparation from rat pancreatic zymogen granules. Using exogenous histone H1 as substrate, C kinase activity was found in the membrane fraction. The kinase was solubilized from membranes using Triton X-100 and partially purified using DEAE-cellulose chromatography. An endogenous membrane protein (Mr approximately equal to 18 000) was found to be specifically phosphorylated in the combined presence of Ca2+ and phosphatidylserine. Added diacylglycerol was effective in stimulating phosphorylation of exogenous histone by the partially purified C kinase, but had no effect upon phosphorylation of the endogenous 18 kDa protein by the membrane-associated C kinase. Phosphorylation of the 18 kDa protein was rapid (detectable within 30 s following exposure to Ca2+ and phosphatidylserine), and highly sensitive to Ca2+ (Ka = 4 microM in the presence of phosphatidylserine). These findings suggest a role for this Ca2+-dependent protein phosphorylation system in the regulation of pancreatic exocrine function.     

A family of 16-kDa pancreatic secretory stress proteins form highly organized fibrillar structures upon tryptic activation

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.     

Secretory apparatus assessed by analysis of pancreatic secretory stress protein expression in a rat model of chronic pancreatitis

Secretory stress proteins (SSP) are a family of proteins including isoforms of pancreatitis-associated protein (PAP) and pancreatic stone protein (PSP/reg). In vitro exposure to trypsin results in the formation of insoluble fibrillar structures. SSP are constitutively secreted into pancreatic juice at low levels. The WBN/Kob rat is a model for chronic pancreatitis, displaying focal inflammation, destruction of the parenchyma and changes in the architecture of the acinar cell; the synthesis and secretion of SSP are also increased. We have investigated the secretory apparatus by SSP immunohistochemistry at the light- and electron-microscopical (EM) levels. Immunocytochemistry of PSP/reg in Wistar control rats reveals low levels, with individual acinar cells exhibiting high immunoreactivity in zymogen granules. PAP is not detectable. In the WBN/Kob rat, PSP/reg and PAP immunoreactivity is markedly increased. Double immunofluorescence for PSP/reg and PAP I or II demonstrates that these proteins colocalize to the same cell. Acinar cells change their secretory architecture by fusion of zymogen granules and elongation of the fused organelles. The immunogold technique has demonstrated an increase of SSP in zymogen granules in WBN/Kob rats. PSP/reg-positive zymogen granules fuse to form elongated structures with fibrillar contents. An extensive PSP/reg-positive fibrillar network is established in the cytosol. Extracellular fibrils have been observed in several ductules. Thus, SSP-derived fibrils form concomitantly with acinar damage in the WBN/Kob rat. Based on the known tryptic cleavage site of SSP, the in vivo generation of fibrils is presumably the result of premature trypsin activation.     

Somatostatin receptors on rat cerebrocortical membranes. Structural characterization of somatostatin-14 and somatostatin-28 receptors and comparison with pancreatic type receptors

Somatostatin binding and cross-linking to its receptors on rat cerebrocortical membranes were characterized with [125I-Tyr1]somatostatin-14 and [125I-Leu8, D-Trp22, Tyr25]somatostatin-28. When [125I-Tyr1]somatostatin-14 was cross-linked to its receptors with the photoreactive cross-linker, N-(5-azido-2-nitrobenzoyloxy)succinimide, the hormone was specifically associated with a Mr = 72,000 protein band in the presence or absence of reducing agents. Affinity labeling of the Mr = 72,000 protein band was decreased with increasing concentrations of unlabeled somatostatin-14 and nonhydrolyzable guanine nucleotide analog, guanyl-5'-yl imidodiphosphate (Gpp(NH)p). Pretreatment of cerebrocortical membranes with islet-activating protein resulted in a decrease in subsequent labeled somatostatin-14 binding and affinity-labeling of the protein and abolished an inhibitory effect of somatostatin-14 on vasoactive intestinal peptide-stimulated increase in adenylate cyclase activity. When the affinity-labeled protein was solubilized with Zwittergent 3-12 and adsorbed to wheat germ agglutinin-agarose, it was eluted by N-acetylglucosamine. [125I-Leu8, D-Trp22, Tyr25]somatostatin-28 cross-linking to cerebrocortical and pancreatic membranes with the same photoreactive agent revealed specifically labeled protein bands of a Mr = 74,000 in cerebrocortical membranes and a Mr = 94,000 in pancreatic membranes, respectively. These results suggest that: 1) somatostatin receptor on cerebrocortical membranes is a monomeric glycoprotein with a Mr = 70,000 binding subunit, coupled to guanine nucleotide regulatory protein, and 2) the Mr = 70,000 protein may be a common receptor for somatostatin-28 and somatostatin-14 and is distinct from a common pancreatic type receptor.     

Characterization of pancreatic lipase-related protein 2 isolated from human pancreatic juice

Human pancreatic lipase-related protein 2 (HPLRP2) was identified for the first time in pancreatic juice using specific anti-peptide antibodies and purified to homogeneity. Antibodies were raised in the rabbit using a synthetic peptide from the HPLRP2 protein sequence deduced from cDNA. Western blotting analysis showed that these antibodies did not react with classical human pancreatic lipase (HPL) or human pancreatic lipase-related protein 1 (HPLRP1) but cross-reacted with native rat PLRP2 (RPLRP2), as well as with recombinant rat and guinea-pig PLRP2 (GPLRP2). Immunoaffinity chromatography was performed on immobilized anti-recombinant HPLRP2 polyclonal antibodies to purify native HPLRP2 after conventional chromatographic steps including gel filtration and chromatrography on an anion-exchanger. The substrate specificity of HPLRP2 was investigated using various triglycerides, phospholipids and galactolipids as substrates. The lipase activity on triglycerides was inhibited by bile salts and weakly restored by colipase. The phospholipase activity of HPLRP2 on phospholipid micelles was very low. A significant level of galactolipase activity was measured using monogalactosyldiglyceride monomolecular films. These data suggest that the main physiological function of HPLRP2 is the hydrolysis of galactolipids, which are the main lipids present in vegetable food.     

Regulation of protein phosphorylation in pancreatic acini by cyclic AMP-mediated secretagogues: interaction with carbamylcholine

The effects on protein phosphorylation in mouse pancreatic acini of cyclic AMP-mediated secretagogues and the Ca2+-mediated agonist carbamylcholine were compared. Under the conditions adopted for the study of protein phosphorylation, carbamylcholine (3 microM) stimulated amylase release from pancreatic acini 6-fold, whereas vasoactive intestinal polypeptide (VIP) (100 nM) and the cyclic AMP analogue 8-bromo-cyclic AMP (1 mM) caused little or no increase in secretion. However, VIP and 8-bromo-cyclic AMP, when added in combination with carbamylcholine, potentiated the stimulation of amylase release to 170-180% of that caused by carbamylcholine alone. As assessed by two-dimensional gel electrophoresis, VIP reproduced four of the ten changes in protein phosphorylation elicited by carbamylcholine, these changes being the increased phosphorylation of one soluble protein and the decreased phosphorylation of three soluble proteins. VIP enhanced the carbamylcholine-induced changes in phosphorylation for three proteins. In addition, VIP increased the phosphorylation of a unique protein of Mr 52,000 and pI 5.66 which was not affected by carbamylcholine. All of the effects on protein phosphorylation exerted by VIP in the presence or absence of carbamylcholine were mimicked by 8-bromo-cyclic AMP. Secretin also reproduced most of the changes in protein phosphorylation caused by VIP, although concentrations of secretin of at least 100-fold higher were required to elicit a maximal response. It is concluded that cyclic AMP-mediated secretagogues alter the phosphorylation of a unique protein as well as of several pancreatic proteins affected by carbamylcholine. Moreover, these effects appear to be mediated primarily by VIP-preferring receptors and may be involved in the synergistic action of VIP to promote carbamylcholine-induced amylase release.     

Manganese-stimulated phosphorylation of a rat pancreatic protein: identity with elongation factor 2

To investigate the effect of Mn2+ on pancreatic protein phosphorylation, we incubated rat pancreatic cytosol in Tris buffer (pH 7.5) with [gamma-32P]ATP. Analysis using sodium dodecyl sulphate polyacrylamide gel electrophoresis and autoradiography revealed a single protein (p98), with an Mr of 98,000 and a pI of 6.4-6.5, which was phosphorylated in a dose-dependent manner by Mn2+. A threshold effect was observed at 35 microM, and maximal effect at 1.1 mM Mn2+. Ca2+ and calmodulin (CaM) did not cause p98 phosphorylation, but Mg2+ (10 mM) caused faint non-specific phosphorylation of p98. Ca2+ (0.03-3 mM) and CaM (1-10 micrograms/ml) significantly enhanced, whereas trifluoperazine (TFP) and Mg2+ inhibited Mn(2+)-stimulated p98 phosphorylation. Under the above incubation conditions, Mn(2+)-stimulated protein phosphorylation of p98 was also observed in isolated pancreatic acini, but not in cytosols from liver or kidney. Partial purification of p98 and amino acid sequencing of the protein band corresponding to p98 indicated complete sequence homology with rat elongation factor 2 (EF-2). Furthermore, the combination of Ca2+, Mg2+ and CaM, which is known to induce the phosphorylation of EF-2, mimicked the actions of Mn2+. Inasmuch as EF-2 is the major substrate for CaM-dependent protein kinase III (CaM-PK III), these studies suggest that in the pancreatic acinar cell Mn2+/CaM protein kinase activity is mediated via CaM-PK III and the Mn2+ participates in the regulation of this enzyme in the pancreas.     

Assignment of the gene for human spasmolytic protein (hSP/SML1) to chromosome 21

Summary A human cDNA corresponding to the porcine pancreatic spasmolytic protein (PSP) was isolated, and the recombinant clone was originally termed hSP for human spasmolytic protein. Later, the term SML1 for spasmolysin was suggested for the human gene. This protein shows a remarkable sequence homology to pS2, a protein coded by an estrogen-induced gene isolated from the breast carcinoma cell line MCF-7. Although, at the DNA level, the gene sequences pS2 and hSP/SML1 display insufficient homology for cross-hybridization, their expression in tumor cells occurs with remarkable coordination. The human pS2 gene sequence has been assigned to chromosome 21, and we have therefore attempted to map the hSP/SMLl gene by using cDNA and Southern blotting of genomic DNAs from a panel of human-rodent somatic cell hybrids carrying different complements of human chromosomes. Interestingly, the hSP/SMLl gene is also localized on chromosome 21.     

Solubilization and characterization of guinea-pig pancreatic somatostatin receptors

The solubilization of somatostatin receptors from guinea-pig pancreas by different non-denaturing detergents was investigated after stabilization of the receptors by prior binding of 125I-[Tyr11]somatostatin or its analogue 125I-[Leu8,DTrp22,Tyr25]somatostatin 28, to pancreatic plasma membranes. The somatostatin-receptor complexes were solubilized in a high yield by Zwittergent 3-14 (3-[tetradecyldimethylammonio]-1-propanesulfonate), a zwitterionic detergent. Other detergents, digitonin, Triton X-100, Chaps (3-[cholamidopropyldimethylammonio]-1-propanesulfonate) and octyl beta-D-glycopyranoside, achieved only partial solubilization. The recovery of receptor complexes was increased by glycerol. In order to characterize solubilized somatostatin-receptor complexes, membranes receptors were covalently labelled using N-5-azido-2-nitrobenzoyloxysuccinimide as cross-linking reagent before solubilization. Gel filtration chromatography analysis resulted in the identification of a major protein component of apparent Mr = 93,000 which interacted with the two radioligands. In addition, a similar component of Mr = 88,000 was characterized after analysis by SDS-PAGE of membrane receptors covalently cross-linked with 125I-[Leu8,DTrp22,Tyr25]somatostatin 28 by different heterobifunctional reagents: N-5-azido-2-nitrobenzoyloxysuccinimide, N-hydroxysuccinimidyl 4-azidobenzoate, N-succinimidyl 6-(4'-azido-2'-nitrophenylamino)hexanoate. Optimal cross-linking results were obtained with N-5-azido-2-nitrobenzoyloxysuccinimide. The solubilized somatostatin-receptor complex was adsorbed to wheat-germ agglutinin-agarose column and eluted by specific sugars. We concluded that the guinea-pig pancreatic somatostatin receptor in the membrane and in the non-denaturing detergent solution behaves as a protein monomer of apparent Mr approximately 85,000-90,000. The somatostatin receptor is a glycoprotein which contains complex-type carbohydrate chains.     

Pancreatic spasmolytic polypeptide (PSP): II. Radioimmunological determination of PSP in porcine tissues, plasma and pancreatic juice

A radioimmunoassay (RIA) for the determination of porcine Pancreatic Spasmolytic Polypeptide (PSP) has been developed. The antisera raised in rabbits were sensitive to 5 pgequiv. of PSP in a volume of 100 microliter. Immunoreactive PSP (IR-PSP) has been determined in extracts from 22 porcine organs. Pancreas was found to be the only organ containing substantial amounts of IR-PSP (0.1 mgequiv. IR-PSP/g wet weight). The fasting porcine plasma level of IR-PSP was about 10 ngequiv./ml, corresponding to 850 pM. The concentration of IR-PSP in porcine pancreatic juice varied from 0.2 mugequiv./ml in the fasting state to 46-116 mugequiv./ml after stimulation with pancreozymin or secretin. A linear correlation was found between the exocrine secretion of IR-PSP and total protein.     

Analysis of the fatty acid components in a perchloric acid-soluble protein

We had previously found that a perchloric acid-soluble protein (PSP1) occurs in rat liver, and that this novel protein inhibits protein synthesis in a rabbit reticulocyte lysate system (T. Oka, H. Tsuji, C. Noda, K. Sakai, Y.-H. Hong, I. Suzuki, S. Mu?oz, Y. Natori, J. Biol. Chem. 270 (1995) 30060-30067). In the present study, we analyzed lipid components bound to PSP1. Native PSP1 was purified from rat liver using Sephadex G-75, DE-52 cellulose and IgGPSP-affinity chromatography, and the lipid components were extracted. The components obtained from the purified PSP1 were shown to be free fatty acids by thin-layer chromatography. By GC-MS, six major fatty acids were identified as 14:0, 16:0, 18:0, 18:1, 18:2 and 20:4. 1 mol of PSP1 contained 1.26 mol of total fatty acid components. The fatty acid-binding assay of PSP1 showed that the Bmax was 1.25 mol fatty acid/mol PSP1 and the Kd value for palmitic acid was 6.03 microM. The concentration of PSP1 mRNA in rat liver increased 2.3-fold by the administration of peroxisome proliferator, bezafibrate. These findings show that PSP1 is a fatty acid-binding protein-like protein, which is involved in the intracellular metabolism of fatty acid and is quite different from the known fatty acid-binding proteins.     

Characterization of pancreatic ERj3p, a homolog of yeast DnaJ-like protein Scj1p

We have previously identified in the human EST sequence data base four overlapping clones that could be aligned with both a predicted protein sequence, deduced from the C. elegans genomic sequence, and partial amino acid sequences, obtained for a protein from canine pancreatic microsomes. We suggested that these proteins are homologs of yeast microsomal and DnaJ-like protein Scj1p and termed them ERj3p. Here we verified the predicted protein sequence of human ERj3p by sequence analysis of the corresponding cDNA. Multiple alignment of related sequences identified these proteins as true homologs of yeast Scj1p. Biochemical analysis of the canine protein characterized ERj3p as a soluble glycoprotein of the pancreatic endoplasmic reticulum. This pancreatic DnaJ-like protein was shown to interact with lumenal DnaK-like proteins, such as BiP. Furthermore, we found that ERj3p interacts with SDF2L1 protein that may be involved in protein O-glycosylation. We propose that ERj3p represents a cochaperone of DnaK-like chaperones of the mammalian endoplasmic reticulum and is involved in folding and maturation of newly synthesized proteins.