Guinea pig pancreatic acini prepared with purified collagenase

Dispersed guinea pig pancreatic acinar cells have been used to investigate several aspects of stimulus-secretion coupling but possess the disadvantage that they are less sensitive and less responsive to secretagogues than in vitro preparations of intact pancreatic tissue (lobules). To overcome the poor responsiveness of isolated acinar cells, we have developed a new procedure for preparing dispersed, intact pancreatic acini whose sensitivity to secretagogues and morphological characteristics are similar to those of pancreatic lobules. Dispersed acini can be manipulated as suspensions of cells and full access of macromolecular probes to apical and basolateral plasmalemmal domains is obtained. Acini were prepared in good yields (~70% on a DNA basis) using only purified collagenase and mild mechanical shear in medium containing 2.0 mM Ca²⁺. Morphologically, acinar cells in the preparations retained intact junctional complexes, asymmetrical distribution of intramembranous particles between apical and basolateral plasmalemmal domains, and polarized distribution of intracellular organelles as found in intact pancreas. Dose-response curves of acini and mechanically prepared lobules to caerulein, carbachol, and bombesin were similar though acini were more sensitive to the C-terminal octapeptide of cholecystokinin. Net stimulated secretory protein discharge was ~36% over 2 h. Crude collagenase was purified for use in preparation of acini by Sephadex G-75 column chromatography which resolved collagenase from clostripain and a non-sulfhydryl-requiring protease. The purified collagenase contained at least four proteins with molecular weights between 85 000 and 110 000. Collagenase with <0.14 units of protease per unit of collagenase produced highly responsive acini; collagenase with >0.9 units of protease per unit of collagenase yielded unresponsive acini. Acini incubated with crude collagenase, chymotrypsin, or the non-sulfhydryl-requiring protease showed depressed secretory response to caerulein. Freeze-fracture electron microscopy of protease-treated acini indicated that the intramembranous particles aggregated and that many of the tight junctions had undergone a proliferation of non-cross-linked sealing strands which extended far down the basolateral plasma membrane and encircled gap junctions. Acini incubated with purified collagenase or with a clostripain-containing fraction from the Sephadex G-75 column appeared unaltered. This procedure produces acini which are morphologically and biochemically similar to the in situ pancreas and overcomes the poor response to secretagogues by isolated pancreatic acinar cells.     

Purification and primary structure of ostrich pancreatic polypeptide

Pancreatic polypeptide has been isolated from ostrich pancreas by gel filtration, ion exchange chromatography and high pressure liquid chromatography. The ostrich peptide contains 36 amino acids and has an amino acid composition similar to pancreatic polypeptide of other avian species. The primary structure of ostrich pancreatic polypeptide differs from that of the chicken peptide only at residues 3 and 18 where the ostrich peptide contains an alanine and a valine residue compared to the serine and isoleucine residues found in those positions in the chicken peptide.     

Novel organization and processing of the guinea pig pancreatic polypeptide precursor

Studies on New World hystricomorph rodents have revealed interesting structural divergences in the peptide hormones of the islets of Langerhans, particularly with respect to insulin and glucagon. Herein we report the isolation and sequencing of a cDNA encoding the precursor of pancreatic polypeptide (PP) from a guinea pig pancreas cDNA library. The 126-residue precursor sequence is predicted to include a 26-residue NH2-terminal signal peptide followed by the 36-amino acid PP hormonal sequence and a large COOH-terminal extension. The sequence identity between guinea pig and human PP is 89% (32/36 residues), and the predicted sequence is in agreement with that reported by Eng et al. (Eng, J., Huang, C.-G., Pan, Y.-C. E., Hulmes, J. D., and Yalow, R. S. (1987) Peptides 8, 165-168). In contrast, the icosapeptide domain in the guinea pig precursor exhibits only 40% (8/20) identity with the corresponding human precursor domain, and the COOH-terminal extension differs greatly in both sequence and size. The guinea pig precursor lacks the monobasic processing site (Pro-Arg) found at the COOH terminus of the icosapeptide domain in human, ovine, canine, and feline proPP. An icosapeptide is thus not likely to be liberated as such from this precursor. Of particular interest in guinea pig proPP is the substitution of serine for arginine at the dibasic amino acid processing site on the COOH-terminal side of the PP domain. Results of radioimmunoassays of gel-filtered protein fractions from a guinea pig pancreas extract indicate that efficient proteolytic cleavage takes place at this Lys-Ser site and that mature guinea pig PP is normally carboxyamidated.     

Guinea pig 11beta-hydroxysteroid dehydrogenase type 1: primary structure and catalytic properties

The 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) enzyme is responsible for the interconversion of glucocorticoids and their inactive metabolites, and thus modulates the intracellular level of bioactive glucocorticoids. The present study was designed to clone and characterize 11beta-HSD1 in the guinea pig, a laboratory animal known for resistance to glucocorticoids. The cDNA encoding guinea pig 11beta-HSD1 was cloned by a modified 3'-RACE (rapid amplification of cDNA ends) protocol using the hepatic RNA as template. The cloned cDNA encodes a protein of 300 amino acids that shares 71 to 74% sequence identity with other known mammalian 11beta-HSD1 proteins. Sequence comparison analysis revealed that the deduced guinea pig 11beta-HSD1 was longer, by eight amino acids at the C terminus, than those of other mammals. Moreover, one of the two absolutely conserved consensus sites for N-glycosylation was absent. To examine the functional significance of these structural changes, we also characterized 11beta-HSD1 activity in the hepatic microsomes. Although the guinea pig hepatic enzyme was NADP(H)-dependent and reversible, it displayed equal affinity for cortisol and cortisone (apparent K(m) for both substrates was 3 microM). This is in marked contrast to 11beta-HSD1 in other mammals whose affinity for cortisone is approximately 10 times higher than that for cortisol (apparent K(m) of 0.3 vs. 3.0 microM). The apparent lower affinity of the guinea pig enzyme for cortisone would suggest that the intracellular bioformation of cortisol from circulating cortisone may be less efficient in this species. Northern blot analysis and RT-PCR revealed that the mRNA for 11beta-HSD1 was widely expressed in the adult guinea pig but at low amounts. In conclusion, the present study has identified distinct features in the deduced primary structure and catalytic function of 11beta-HSD1 in the guinea pig. Thus, the guinea pig provides a useful model in which the structural determinants of catalytic function of 11beta-HSD1 may be studied.     

Immunohistochemical localization of pancreatic spasmolytic polypeptide (PSP) in the pig

Summary Pancreatic spasmolytic polypeptide (PSP) is a peptide that is isolated from the porcine pancreas and that affects intestinal motility and growth of intestinal tumour cells in vitro. The peptide was recently demonstrated to be present in large amounts in pancreatic juice. The cellular origin of the peptide, however, is largely unclarified and the localization was therefore studied of PSP in pigs using immunohistochemistry. Positive immunoreactions were seen in the pancreas, the stomach, the duodenum, the jejunum and the ileum. In the pancreas, the PSP immunoreaction was seen in all acinar cells; no immunoreaction was seen in the endocrine islets. In the stomach, it was localized to the mucous cells of the glands in the cardiac gland region, the corpus and the pylorus. In the duodenum a strong immunoreaction was present in Brunner's glands and in the cells of their excretory ducts. In the jejunum and ileum, PSP immunoreactivity was seen in some of the cells in the epithelium of the crypts of Lieberkühn. A peptide chromatographically identical to highly purified PSP was identified in pancreas and stomach extracts. Thus epithelial cells in all parts of the stomach and small intestine contribute to the supply of PSP to the gut lumen.     

Isolation and structure of guinea pig gastric and pancreatic somatostatin

Somatostatin-14 has been isolated from guinea pig pancreas and stomach and purified to homogeneity by gel filtration, ion-exchange chromatography and reverse phase HPLC. Amino acid composition and sequence analysis indicated that guinea pig somatostatin from both tissues has the same structure as somatostatin-14 from all other mammalian species yet studied. The study has demonstrated that somatostatin-14 from gastric tissue has the same structure as the peptide from hypothalamus and pancreas.     

Effects of pancreatic polypeptide on the pancreatic exocrine secretion stimulated by secretin and cholecystokinin in the conscious pig

Fourteen castrated male Large White pigs, weighing 42.5 +/- 1.0 kg, were fitted with pancreatic and duodenal fistulae for pancreatic secretion studies. Moreover, catheters were placed in a carotid artery for blood sampling and in a jugular vein for peptide infusion. Pancreatic juice was automatically restituted to the animals and continuously sampled for analysis on experimental days. Following an 8-day recovery period, perfusion studies were performed after an overnight fast. After a 30-min basal period, sustained pancreatic flow and protein output were obtained and maintained throughout the assay with secretin (36 pmol/kg/h) and CCK-8 (600 pmol/kg/h) infusion. Then, 200, 400, 600, 800 or 1200 pmol/kg/h of porcine pancreatic polypeptide (PP) were infused for 60 min. Secretin + CCK infusion was continued for 1 h after PP infusion was stopped. Each dose of PP was given on a separate day. Neither pancreatic flow nor bicarbonate output were affected whatever the dose of infused PP. On the contrary, protein concentration and output decreased with the lowest dose of PP (200 pmol/kg/h) and the diminution was more pronounced with the other doses. With 600 pmol/kg/h as well as with 800 and 1200 pmol/kg/h of PP, pancreatic protein output fell to about 20% of values obtained with secretin + CCK. Plasma levels of PP were below or similar to postprandial values for 200, 400 and 600 pmol/kg/h and they were significantly larger with 800 and 1200 pmol/kg/h. Protein concentration and output returned to values obtained with secretin + CCK infusion after cessation of PP infusion. In conclusion, porcine PP given in physiological doses to the pig decreases pancreatic protein output whereas pancreatic flow remains unaffected.     

Immunohistochemical localization of pancreatic spasmolytic polypeptide (PSP) in the pig.

Pancreatic spasmolytic polypeptide (PSP) is a peptide that is isolated from the porcine pancreas and that affects intestinal motility and growth of intestinal tumour cells in vitro. The peptide was recently demonstrated to be present in large amounts in pancreatic juice. The cellular origin of the peptide, however, is largely unclarified and the localization was therefore studied of PSP in pigs using immunohistochemistry. Positive immunoreactions were seen in the pancreas, the stomach, the duodenum, the jejunum and the ileum. In the pancreas, the PSP immunoreaction was seen in all acinar cells; no immunoreaction was seen in the endocrine islets. In the stomach, it was localized to the mucous cells of the glands in the cardiac gland region, the corpus and the pylorus. In the duodenum a strong immunoreaction was present in Brunner's glands and in the cells of their excretory ducts. In the jejunum and ileum, PSP immunoreactivity was seen in some of the cells in the epithelium of the crypts of Lieberkühn. A peptide chromatographically identical to highly purified PSP was identified in pancreas and stomach extracts. Thus epithelial cells in all parts of the stomach and small intestine contribute to the supply of PSP to the gut lumen.     

Guinea pig acylphosphatase: The amino acid sequence

We determined the primary structure of guinea pig skeletal muscle acylphosphatase, using the high degree of homology with several vertebrate acylphosphatases to obtain correct alignment of the complete series of tryptic peptides. Their sequences were obtained mainly by Edman degradation; FAB mass spectrometry was used to identify the acyl group blocking the NH₂-terminal residue and to elucidate the structure of the NH₂-terminal tryptic peptide. The comparison among acylphosphatase sequences from skeletal muscle of several vertebrate species is presented and discussed.     

Sequence-specific 1H NMR assignments and solution structure of bovine pancreatic polypeptide.

Sequence-specific 1H NMR assignments for the 36 residue bovine pancreatic polypeptide (bPP) have been completed. The secondary and tertiary structure of bPP in solution has been determined from experimental NMR data. It is shown that bPP has a very well-defined C-terminal alpha-helix involving residues 15-32. Although regular secondary structure cannot be clearly defined in the N-terminal region, residues 4-8 maintain a rather ordered conformation in solution. This is attributed primarily to the hydrophobic interactions between this region and the C-terminal helix. The two segments of the structure are joined by a turn which is poorly defined. The four end residues both at the N-terminus and the C-terminus are highly disordered in solution. The overall fold of the bPP molecule is very closely similar to that found in the crystal structure of avian pancreatic polypeptide (aPP). The RMS deviation for backbone atoms of residues 4-8 and 15-32 between the bPP mean structure and the aPP crystal structure is 0.65 A, although there is only 39% identity of the residues. Furthermore, the average conformations of some (mostly from the alpha-helix) side chains of bPP in solution are closely similar to those of aPP in the crystal structure. A large number of side chains of bPP, however, show significant conformational averaging in solution.     

Guinea pig low density lipoproteins: structural and metabolic heterogeneity

The structural and metabolic heterogeneity of low density lipoproteins (LDL, d 1.024-1.100 g/ml) has been investigated in the guinea pig. Two LDL subfractions, of d 1.024-1.050 and 1.050-1.100 g/ml, respectively, were isolated by sequential ultracentrifugation; while both were enriched in cholesteryl ester and apoB-100, the former was heterogeneous displaying three particle size species of diameters 26.9, 25.6, and 24.7 nm, whereas the denser subfraction was relatively homogeneous containing a single, smaller species (diam. 23.6 nm). The fractional catabolic rates (FCR) of the two LDL subfractions were alike (approximately 0.090 pools/hr) in the guinea pig in vivo. After modification of each subfraction by reductive methylation, the FCRs were reduced similarly and indicated that 70-80% of degradation occurred via the cellular LDL receptor pathway. However, the intravascular metabolism of these LDL subfractions, determined from the radioactive content of density gradient fractions as a function of time after injection of radiolabeled native or chemically modified LDL, tended to be distinct. Thus, while radiolabeled apoB-100 in the lighter subfraction maintained the initial density profile up to 48 hr, the radioactive profile of its methylated counterpart changed, the proportion of radioactivity in the lighter gradient fractions (d 1.027-1.032 g/ml) increasing while that in the denser (d 1.037-1.042 g/ml) fractions diminished. A more marked transformation occurred in LDL of d 1.050-1.100 g/ml, in which the radioactive profile shifted towards lighter particles of the d 1.024-1.050 g/ml species; this shift was partially dependent on the LDL receptor, since it was more pronounced in the methylated subfraction. Furthermore, a net increase in the radioactive content of gradient subfractions 7 to 9 (d 1.032-1.042 g/ml) was found 10 hr after injection of methylated LDL of d 1.050-1.100 g/ml, at which time the bulk of LDL radioactivity had been removed from plasma. Several mechanisms, acting alone or in combination, may account for these findings; among them, some degree of transformation of dense to lighter LDL species appears a prerequisite. In conclusion, our data attest to the structural heterogeneity of circulating LDL in the guinea pig, and suggest that the intravascular processing and metabolism of LDL particle subspecies is directly related to their structure and physicochemical properties.     

Crystal structure of the pig pancreatic alpha-amylase complexed with malto-oligosaccharides

The structural X-ray map of a pig pancreatic -amylase crystal soaked (and flash-frozen) with a maltopentaose substrate showed a pattern of electron density corresponding to the binding of oligosaccharides at the active site and at three surface binding sites. The electron density region observed at the active site, filling subsites –3 through –1, was interpreted in terms of the process of enzyme-catalyzed hydrolysis undergone by maltopentaose. Because the expected conformational changes in the flexible loop that constitutes the surface edge of the active site were not observed, the movement of the loop may depend on aglycone site being filled. The crystal structure was refined at 2.01 å resolution to an R factor of 17.0% (R _free factor of 19.8%). The final model consists of 3910 protein atoms, one calcium ion, two chloride ions, 103 oligosaccharide atoms, 761 atoms of water molecules, and 23 ethylene glycol atoms.     

Guinea pig intestinal iron binding protein

An iron binding protein, isolated from guinea pig intestinal mucosa, was compared to guinea pig transferrin. Both had a molecular weight of approximately 80,000. The intestinal iron-binding protein consisted of 2 subunits of equal molecular weight; transferrin had no subunits. Transferrin showed an absorbance peak at 470 nm; the intestinal iron-binding protein had no visible absorbance but did have a peak at 336 nm. Electron spin resonance spectra of the two proteins dfffered. Significant differences on amino acid analysis were also identified.     

Pancreatic polypeptide and glucagon: Non-random distribution in pancreatic islets

When the technique of immunofluorescence is applied to rat pancreas to detect insulin, glucagon, somatostatin and pancreatic polypeptide (PP), two populations of islets having distinct cellular content and topographical distribution can be recognized. Islets from the lower part of the head show a well-defined rim of PP-containing cells, but very few or no glucagon-containing cells. Islets from the body and tail display the familiar rim of glucagon-containing cells and possess very few or no PP-containing cells. This inverse relationship between glucagon and PP-cells in different parts of the pancreas means that caution must be exercised when interpreting functional or morphological observations using different pancreatic fractions.