Transpancreatic transport of digestive enzyme

When porcine α-amylase or bovine chymotrypsinogen A was added to the medium bathing the rabbit pancreas in short-term organ culture, the secretion of these enzymes collected via the duct system increased greatly. To determine if it was indeed the amylase added to the bath that was recovered in secretion, endogenous enzyme stores were prelabeled during a 4 h incubation with [³H]- leucine and the specific radioactivity of amylase in secretion followed. The addition of unlabeled exogenous amylase to the bathing medium reduced the specific radioactivity of secreted amylase of about 90% suggesting that the response was due to the transpancreatic transport of the added enzyme. This inhibition was maintained over time, and was a result, not only of the increased secretion of unlabeled enzyme, but also of a 72% steady-state inhibition in the secretion of endogenous (labeled) amylase. This latter observation indicates that the exogenous enzyme crosses the acinar cell and mixes with endogenous cellular stores. A cellular route is also suggested by the observation that the addition of amylase to the bath increased the amylase concentration in ductal fluid relative to that in the bath by about 20 times; it did not reduce it as would be expected if paracellular shunts were involved. In addition, a cellular pathway is suggested by the observation that a 2 h prior incubation in bovine chymotrypsinogen resulted in a greatly augmented chymotrpsinogen response to a maximal cholinergic stimulus. In all, the data support the prediction of the equilibrium theory of digestive enzyme secretion that enzyme secretion should be responsive to mass action, and the prediction of the enteropancreatic circulation hypothesis that a capacity exists for a substantial transpancreatic flux of digestive enzyme.     

Changes in content and secretion of pancreatic enzymes in the obese Zucker rat.

The contents of three major digestive enzymes (amylase, lipase and chymotrypsinogen) were measured in the obese Zucker rat. Only minimal changes were found in 7-week-old rats, but in adult obese rats (14-16 weeks) the amylase content was decreased by 50%, whereas the lipase and chymotrypsinogen contents were increased by 45% and 20%, respectively, compared with lean controls. Abnormalities of enzyme secretion were also found. Since the changes observed in enzyme proportions in adult obese Zucker rats are qualitatively similar to those observed in insulinopenic diabetes and other states associated with decreased glucose metabolism, it is speculated that the abnormalities found in the obese Zucker rat may be due to decreased glucose metabolism in the exocrine tissue consequent to insulin resistance.     

Responses of the pancreatic digestive enzyme secretion to amino acids, glucose and cholecystokinin in chicks

1. Pancreatic secretion of digestive enzymes, amylase, trypsinogen and chymotrypsinogen, was studied in response to the wing vein injection of digestive end products, various single amino acids and glucose, with or without cholecystokinin (CCK) in chicks. 2. Among amino acids administered, only phenylalanine significantly (P less than 0.05) increased trypsinogen and chymotrypsinogen secretions, while other amino acids did not. 3. Simultaneous injection of single amino acids with CCK increased digestive enzyme secretion to various extents depending on the kind of amino acids whereas the injection of glucose with CCK did not affect when compared with that of CCK alone. 4. By varying doses, a synergetic action of CCK plus amino acid on the secretion of pancreatic digestive enzymes was observed at 0.5 mM for valine and 5 mM for arginine.     

Nonparallel discharge of digestive enzymes from isolated pancreatic acini

The secretion of amylase, trypsinogen, chymotrypsinogen and proelastase from isolated rat dispersed pancreatic acini was investigated in the absence (basal) and presence of two concentrations of CCK8 (50 and 500 pM), carbachol (2.5 and 7.5 microM) and secretin (10 nM and 1 microM). The unstimulated (basal) rate of release of each of the digestive enzymes was essentially the same. However, whereas both doses of CCK8 and carbachol caused a preferential release of chymotrypsinogen over that of amylase and trypsinogen, the magnitude of stimulated release of amylase, trypsinogen and chymotrypsinogen by 1 microM secretin was found to be similar for each of the enzymes. Furthermore, none of the secretagogues caused a significant enhancement in proelastase release. The present data demonstrate that whereas CCK8 and carbachol induce a greater release of chymotrypsinogen over that of amylase or trypsinogen, release of all three enzymes was equally stimulated by secretin from isolated pancreatic acini.     

Role of exogenous arachidonate in the biosynthesis of 5-lipoxygenase metabolites of arachidonic acid by human polymorphonuclear leukocytes induced by the calcium ionophore A23187

By using high performance liquid chromatography with simultaneous detection of unlabeled and radiolabeled product of lipoxygenase oxidation of arachidonic acid, the mechanism of exogenous arachidonate involvement in leukotriene synthesis in human neutrophils induced by the Ca2+ ionophore A23187 was studied. It was found that after addition of labeled arachidonate the specific radioactivity of the reaction product (leukotriene B4) does not change on a time scale, i.e., the free arachidonic acid exchange between the cell and extracellular space is a very rapid process. Exogenous arachidonic acid was found to be the substrate of the lipoxygenase reaction which acts in parallel with the endogenous one. The dependence of specific radioactivity of leukotriene B4 in added arachidonic acid concentration is described by a hyperbolic curve with saturation. When exogenous arachidonate is used at a concentration of 10.8 +/- 3.9 microM, that of intracellular arachidonic acid increases twofold at the expense of the exogenously added acid.     

Digestive end products release pancreatic enzymes from particulate cellular pools, particularly zymogen granules

The effects of various amino acids and phosphorylated forms of glucose on the release of digestive enzymes from particulate cellular pools, particularly zymogen granules, were evaluated in rat pancreas. Whole tissue homogenates, as well as zymogen granules isolated either by differential centrifugation in 0.3 M sucrose or by preparation in buffered sucrose and subsequent centrifugation in a Percoll gradient, were studied. The basic amino acids L-arginine and L-lysine, sites of tryptic cleavage, caused the release of trypsinogen, but not chymotrypsinogen, whereas the aromatic amino acids L-phenylalanine and L-tryptophan, sites of chymotryptic cleavage, caused release of both trypsinogen and chymotrypsinogen. Neither led to the release of the starch-splitting enzyme amylase. All effects occurred within the range of normal plasma concentrations for these amino acids in the rat. Two amino acids, L-threonine and hydroxy-L-proline, that are not sites of cleavage by trypsin or chymotrypsin, and a nonmammalian amino acid, aminoadipic acid, did not lead to release of trypsinogen, chymotrypsinogen, or amylase. Two phosphorylated forms of glucose, glucose 1-phosphate and glucose 1,6-diphosphate, caused the release of amylase, but of neither trypsinogen nor chymotrypsinogen. Contrary to previous results, D-glucose was without effect, as was glucose 6-phosphate. We propose that certain digestive end products, by direct action on zymogen granules, cause the selective release of the enzymes involved in their evolution from polymeric substrates during digestion.     

The CCKB/gastrin receptor is coupled to the regulation of enzyme secretion, protein synthesis and p70 S6 kinase activity in acinar cells from ElasCCKB transgenic mice.

In order to determine which physiological functions can be regulated by the pancreatic CCKB/gastrin receptor, studies were carried out on pancreatic acini from mice expressing transgenic CCKB/gastrin receptors in the exocrine pancreas (ElasCCKB mice). Acini were stimulated by sulfated gastrin in the presence of SR 27897 (1.8 microM), blocking endogenous CCKA receptors. After 30 min incubation with gastrin, the secretion of chymotrypsinogen and amylase showed superimposable monophasic dose-response curves. Enzyme secretion was detectable and maximal at 100 pM and 1 nM of gastrin, respectively. No increase in chymotrypsinogen and amylase mRNAs was detected for doses of gastrin which specifically occupy the CCKB/gastrin receptor. In contrast, gastrin stimulated total protein synthesis in isolated acini from ElasCCKB mice. [35S]Methionine incorporation into total proteins was increased dose-dependently to a maximum for 30 pM gastrin and inhibited with higher doses (> 300 pM). Gastrin stimulated p70 S6 kinase activity for concentrations ranging from 10 pM to 1 nM. Gastrin-stimulated p70 S6 kinase activity and protein synthesis were blocked by rapamycin and wortmannin. Therefore, in ElasCCKB mice acinar cells, the CCKB/gastrin receptor mediates enzyme release and protein synthesis. However, a more efficient coupling of the CCKB/gastrin receptor to protein synthesis than to enzyme secretion was demonstrated. CCKB/gastrin receptor-stimulated protein synthesis likely results from an enhancement of mRNA translation and involves phosphatidyl inositol 3-kinase and p70 S6 kinase.     

Effects of dexamethasone and 5-bromodeoxyuridine on protein synthesis and secretion during in vitro pancreatic development

Protein synthesis and secretion during in vitro pancreatic development and after treatment with the glucocorticoid dexamethasone and the thymidine analog 5-bromodeoxyuridine (BrdU) was monitored using two-dimensional gel electrophoresis. At 14 days gestation, the synthesis of more than 200 proteins and the secretion of a complex set of proteins was detected. The relative rate of synthesis and secretion of the majority of this set of proteins decreased dramatically during development; after 6 days of culture most were no longer detected. In contrast, the synthesis and secretion of pancreas-specific exocrine proteins amylase, a Sepharose binding protein (protein 2), and chymotrypsinogen first detected after one day in culture, increased throughout the 6-day culture period. Other pancreatic digestive (pro)enzymes normally found in the adult such as the basic form of chymotrypsinogen, lipase, ribonuclease, and trypsinogen were not detected during the culture period. Thus at least two distinct regulatory events are involved in the expression of the exocrine genes during development. Dexamethasone treatment during the 6-day culture period selectively increased the synthesis of amylase and several other minor secretory proteins. BrdU treatment caused major changes in the protein synthetic and secretory patterns of the pancreas as well as in morphogenesis. BrdU treated pancreases showed greatly reduced synthesis of amylase, protein 2, and chymotrypsinogen and prolonged synthesis of many proteins normally detected only at early stages of pancreatic development. BrdU treatment also stimulated the secretion of a set of proteins ostensibly associated with duct cells. Thus, BrdU specifically alters the developmental program of the pancreas.     

Cholecystokinin/pancreozymin induces the parallel discharge of digestive enzymes from the in vitro rabbit pancreas.

Considerable controversy has surrounded the question of whether the exocrine pancreas discharges digestive enzymes in a parallel or nonparallel fashion. A recent report (Rothman, S.S., and Wilking, H. (1978) J. Biol. Chem. 253, 3543-3549) claimed that the in vitro rabbit pancreas demonstrated nonparallel enzyme discharge after stimulation with cholecystokinin/pancreozymin, but that parallel discharge followed stimulation with the COOH-terminal octapeptide of cholecystokinin/pancreozymin. It was suggested that the full hormone acted to inhibit chymotrypsinogen secretion while stimulating trypsinogen secretion. Because of the fundamental importance of this question to our understanding of the exocrine secretion of exportable proteins, we have repeated these experiments using the same preparation and stimulant but have observed only parallel enzyme discharge. We conclude that it is unlikely that cholecystokinin/pancreozymin causes the selective inhibition of chymotrypsinogen secretion.     

Effects of GP2 expression on secretion and endocytosis in pancreatic AR4-2J cells

GP2 is the major membrane protein present in secretory granules of the exocrine pancreas. GP2's function is unknown, but a role in digestive enzyme packaging or secretion from secretory granules has been proposed. In addition, GP2 has been proposed to influence endocytosis and membrane recycling following stimulated secretion. Adenovirus-mediated GP2 overexpression in the rat pancreatic cell line AR4-2J was used to study its impact on digestive enzyme secretion and membrane recycling. Immunoelectron microscopy showed that GP2 and amylase co-localized in secretory granules in infected AR4-2J cells. CCK-8 stimulation resulted in a fourfold increase in amylase secretion with or without GP2 expression. GP2 expression also did not influence endocytosis following CCK-8 stimulation. Thus, GP2 expression in AR4-2J cells does not affect amylase packaging in secretory granules or stimulated secretion. GP2 expression also does not influence membrane recycling in response to stimulated stimulation in AR4-2J cells.     

Responses of the pancreatic digestive enzyme secretion to various combinations of amino acids and cholecystokinin in chicks (Gallus domesticus)

1. Effect of amino acid administration on pancreatic secretion of digestive enzymes, amylase, trypsinogen and chymotrypsinogen was studied after wing vein injection of an amino acid (AAs) mixture (Thr, Lys, Phe, Leu, Ile, Glu, Val, His, and Met) or combinations of selected amino acids, i.e. Thr + Phe + Ile, Thr + Phe, Thr + Ile or Phe + Ile, in the presence of cholecystokinin (CCK) in chicks. 2. Time course changes of enzyme output were similar in all treatment groups having a peak within 10-30 min, except for Phe + Ile that resulted in delayed induction of the enzyme release as shown by significant increases in the last 20 min compared with those in the rest. 3. When increases in enzyme outputs for the first 30 min were compared, it was shown that the three enzyme responses brought about by the administration of the AAs mixture was almost entirely accounted for by the combined injection of Thr + Phe. 4. Neither Thr + Ile nor Phe + Ile was as effective as Thr + Phe in inducing the output of these pancreatic enzymes. 5. The present results suggest that Thr and Phe may have a specific regulatory role in the secretion of pancreatic digestive enzymes in chicks when administered simultaneously.     

Nonparallel courses of intrapancreatic levels of exportable enzymes after a fatty meal.

Stimulation of pancreatic secretion by a fatty meal resulted in a nonparallel time-course of intrapancreatic amylase, lipase, trypsinogen, and chymotrypsinogen levels. Concomitant variations in the rate of pancreatic protein biosynthesis are observed. Those results support the hypothesis that nonparallelism in exportable enzyme levels is a consequence of a nonparallel regulation by the stimulus of the individual rates of enzyme biosynthesis.     

Development of digestive secretions in white sturgeon juveniles (Acipenser transmontanus)

Development of the digestive enzyme complement corresponded with this species' carnivorous habits and a natural dietary shift at metamorphosis from larval pelagic zooplanktivory to benthic carnivory. During the first developmental stanza when the digestive tract was differentiating and the larvae were dependent on endogenous nutritional reserves, digestive enzyme concentrations were low. Initiation of gastric secretion (pepsin and acid) was concomitant with onset of exogenous feeding. Highest amylolytic and lipolytic activities were recorded from feeding larvae prior to their metamorphosis to juveniles.     

Circulatory turnover of pancreatic amylase.

Radiolabeled amylase and unlabeled pancreatic amylase were infused into pigs in order to determine the plasma half-life of the enzyme. Regardless of the parameter measured (radioactivity, enzyme activity or concentration), the plasma removal curves could be resolved into three components when subjected to tracer analysis. The plasma half-life was estimated to be approximately 3 hr. Through the use of a recently developed radioimmunoassay specific for porcine pancreatic amylase, the plasma concentration of amylase was calculated at 2.4 mug/ml. Knowing the plasma concentration and half-life of amylase we determined the circulatory turnover of the enzyme. Over a 2.4-hr period, 9.6 mug of pancreatic amylase/ml of plasma must re-enter the circulation to maintain the enzyme at constant levels.     

对牛胰多肽抑制胰酶分泌作用的离体研究

为探讨胰多肽抑制胰酶分泌的机制,我们利用大鼠离体胰腺泡制备观察了牛胰多肽(BPP)在细胞受体水平对氨甲酰胆碱等促分泌物作用的影响。实验结果显示,BPP 对氨甲酰胆碱诱导的胰腺泡淀粉酶分泌具有抑制作用,并存在剂量反应关系。BPP0.1μmol/L 和0.2μmol/L,可分别使氨甲酰胆碱诱导淀粉酶分泌的效价降低3倍和10倍;BPP 还可抑制氨甲酰胆碱刺激胰腺泡释放~(45)Ca。以上结果提示,BPP 对胰腺泡的胆碱能 M 受体具有拮抗作用。此外,BPP 对促胰液素及其同类激动剂和氨甲酰胆碱协同作用诱导的胰腺泡淀粉酶分泌具有抑制作用,提示胰多肽在整体对促胰液素诱导的胰酶分泌的抑制,可能是通过拮抗胰腺泡细胞上的 M 受体而抑制了促胰液素和胆碱能刺激协同作用引起的胰酶分泌。     

Effects of glucose,exogenous insulin,and carbachol on C-peptide and insulin secretion from isolated perifused rat islets

Isolated perifused rat islets were stimulated with glucose, exogenous insulin, or carbachol. C-peptide and, where possible, insulin secretory rates were measured. Glucose (8-10 mm) induced dose-dependent and kinetically similar patterns of C-peptide and insulin secretion. The addition of 100 nm bovine insulin had no effect on C-peptide release in response to 8-10 mm glucose stimulation. The addition of 100 nm bovine insulin or 500 nm human insulin together with 3 mm glucose had no stimulatory effect on C-peptide secretion rates from perifused rat islets. Stimulation with carbachol plus 7 mm glucose enhanced both C-peptide and insulin secretion, and the further addition of 100 nm bovine insulin had no inhibitory effect on C-peptide secretory rates under this condition. Perifusion studies using pharmacologic inhibitors (genistein and wortmannin) of the kinases thought to be involved in insulin signaling potentiated 10 mm glucose-induced secretion. The results support the following conclusions. 1) C-peptide release rates accurately reflect insulin secretion rates from collagenase-isolated, perifused rat islets. 2) Exogenously added bovine insulin exerts no inhibitory effect on release to several agonists including glucose. 3) In the presence of 3 mm glucose, exogenously added bovine or human insulin do not stimulate endogenous insulin secretion.     

Nutrient control of release of pancreatic enzymes in yellowtail (Seriola quinqueradiata): involvement of CCK and PY in the regulatory loop

Cholecystokinin (CCK) and neuropeptide Y (NPY)-related peptides are key regulators of pancreatic enzyme secretion in vertebrates. CCK stimulates enzyme secretion whereas peptide Y (PY), a NPY-related peptide, plays an antagonistic role to that of CCK. In fish, very little is known about how different nutrients affect the synthesis of CCK and PY in the digestive tract, and the mechanism by which CCK and PY actually regulate digestive enzyme secretion is not well understood. In order to determine how different nutrients stimulate the synthesis of CCK and PY in yellowtail (Seriola quinqueradiata), CCK and PY mRNA levels in the digestive tract were measured after oral administration of a single bolus of either phosphate-buffered saline (PBS: control), starch (carbohydrate), casein (protein), oleic acid (fatty acid) or tri-olein (triglyceride). In addition, in order to confirm the synthesis and secretion of digestive enzymes, the mRNA levels and enzymatic activities of three digestive enzymes (lipase, trypsin and amylase) were also analyzed. Casein, oleic acid and tri-olein increased the synthesis of lipase, trypsin and amylase, while starch and PBS did not affect the activity of any of these enzymes. CCK mRNA levels rose, while PY mRNA levels were reduced in fish administered casein, oleic acid and tri-olein. These results suggest that in yellowtail, CCK and PY maintain antagonistic control of pancreatic enzyme secretion after intake of protein and/or fat.     

Morphometrical and immunocytochemical studies on rat pancreatic acinar cells under control and experimental conditions

Process of amylase and chymotrypsinogen secretion by acinar cells has been studied applying morphological and biochemical approaches. Three conditions were investigated; resting (fed control), cholinergic stimulation and fasting. Morphometrical evaluations have shown that under stimulation, the volume density of zymogen granules decreases drastically while that of the Golgi apparatus increases. This may result from the enhancement in protein processing and the rapid discharge. Quantitation of amylase and chymotrypsinogen immunolabelings present over the cellular compartments has shown that there is no difference in the intensities between tissues from control and stimulated animals. These results imply that total amounts of protein processed by the Golgi apparatus are markedly enhanced primarily because of the increase in size of the organelle, the amounts of protein processed per unit surface remaining unchanged. Under starvation where reduction of secretion occurs, there is a significant decrease in the volume density of the Golgi apparatus but no variation in that of the zymogen granules. However, the morphological aspect of these was markedly altered since many of them present an electron luscent periphery which was devoid of immunolabeling for amylase and chymotrypsinogen. Quantitation of amylase and chymotrypsinogen immunolabelings has shown significant diminution for both enzymes. In both experimental conditions, the volume density of lysosomes was enhanced, however in none of these conditions evidence of crinophagy was observed. The morphometrical and immunocytochemical results were consistent with those obtained from biochemical determination of amylase and chymotrypsinogen contents in tissues. Correlations between results obtained from morphometric and immunocytochemical studies were made leading to a better understanding of the cellular secretory activity during experimental conditions.     

Clinical Studies of Human Pancreatic Enzyme Synthesis

Very little is known of the effects of diet and disease on panceratic enzyme syntheis in humans as conventional tests measure the secretory response to secreagogues, such as CCK, and secretion may be unrelated to synthesis because of the masking effect of a large intracellular pool of stored enzymes (zymogens). In order to obtain information on enzyme synthesis, as well as secretion, we have measured the incorporation characteristics of isotopically labelled amino acids (e.g., ¹⁴C or ¹³C leucine tracer) into amylase and trypsin protein, extracted by affinity chromatography from duodenal secretions during pancreatic stimulation with CCK-8The results of our studies in healthy volunteers and patients have suggested that (a) it takes between 75 and 101 min for the participation of newly synthesized pancreatic enzymes in the digestive process, and that zymogen stores are replaced at a rate of between 12 percent and 47 percent per hour in normal healthy subjects, (b) the synthesis and production rates of trypsin and amylase are parallel in healthy subjects, but can diverge under stressful conditions such as hypersecretory states, post-acute pancreatitis and protein malnutrition, (c) hyperphagia stimulates the synthesis of enzymes whilst malnutrition diminishes the synthesis of trypsin to a greater extent than amylase, (d) intravenous glucose and amino acids exert negative feedback control on the synthesis and release of amylase and trypsin, and (e) the decreased secretion of pancreatic enzymes in Type 1 insulin-dependent diabetics is more a consequence of defective enzyme release from zymogen stores than defective synthesis.In conclusion, our results indicate that changes in pancreatic enzyme secretion noted in patients do not always reflect changes in enzyme synthesis, and that the production of individual enzymes may diverge under certain circumstances. Based on the methodology described, it should be possible to develop more sensitive clinical tests of pancreatic function that provide information not only on the abiltiy of the pancreas to secrete enzymes under certain disease states, but also information on the gland''s synthetic activity     

Amylase transport across ileal epithelium in vitro

Amylase transport was measured across the rabbit ileum in vitro employing a modified Ussing chamber. Amylase was moved preferentially in the mucosal to serosal direction. Its rate of transfer was 2–3 orders of magnitude greater than that for inulin. Mucosal to serosal transport of exogenous amylase was completely inhibited in the absence of oxygen. There was also a constant release of endogenous amylase from intestinal tissue into both mucosal and serosal compartments in the absence of an exogenous source. An estimate of the rate of amylase absorption indicates that it may be of sufficient magnitude to account for the enteropancreatic circulation of amylase secreted by the pancreas during augmented secretion.