Dynamics of pancreatic tissue cells in the rat exposed to long-term caerulein treatment: 1. Biochemical, morphological and morphometrical evaluations

This study was undertaken to evaluate whether hypertrophy and hyperplasia of the pancreatic acinar cells induced by caerulein remained after termination of the hormonal treatment. Rats received subcutaneous injections of saline or caerulein for 4 days and were killed immediately after termination of treatment or 2, 15 and 50 days later. Caerulein treatment induced significant increases in pancreatic weight and contents of DNA, RNA, protein, amylase and chymotrypsinogen along with an increased number of acinar cells per acinus and zymogen granules per acinar cells. During the post-treatment period, the caerulein-treated pancreas reverted to control values for their contents in proteins, enzymes and RNA and number of zymogen granules per acinar cell while the number of pancreatic cells remained constant as indicated by the absence of modification in total DNA content and acinar cells per acinus. During that same period, saline-treated pancreas exhibited constant growth. These morphological and biochemical data indicate that the already present and newly formed acinar cells can remain in place once the trophic stimulus is withdrawn and that they can adjust their cellular components and thus their digestive capacity to the circulating levels of endogenous cholecystokinin released in response to normal meals.     

The tripeptide analog feG ameliorates severity of acute pancreatitis in a caerulein mouse model

Acute pancreatitis (AP) is associated with significant morbidity and mortality; however, there is no specific treatment for this disease. A novel salivary tripeptide analog, feG, reduces inflammation in several different animal models of inflammation. The aims of this study were to determine whether feG reduced the severity of AP and modifies the expression of pancreatic ICAM-1 mRNA during AP in a mouse model. AP was induced in mice by hourly (x12) intraperitoneal injections of caerulein. A single dose of feG (100 microg/kg) was coadministered with caerulein either at time 0 h (prophylactic) or 3 h after AP induction (therapeutic). Plasma amylase and pancreatic MPO activities and pancreatic ICAM-1 mRNA expression (by RT-PCR) were measured. Pancreatic sections were histologically assessed for abnormal acinar cells and interstitial space. AP induction produced a sevenfold increase in plasma amylase, a tenfold increase in pancreatic MPO activity, and a threefold increase in interstitial space, and 90% of the acinar cells were abnormal. Prophylactic treatment with feG reduced the AP-induced plasma amylase activity by 45%, pancreatic MPO by 80%, the proportion of abnormal acinar cells by 30%, and interstitial space by 40%. Therapeutic treatment with feG significantly reduced the AP-induced abnormal acinar cells by 10% and the interstitial space by 20%. Pancreatic ICAM-1 mRNA expression was upregulated in AP and was reduced by 50% with prophylactic and therapeutic treatment with feG. We conclude that feG ameliorates experimental AP acting at least in part by modulating ICAM-1 expression in the pancreas.     

Time course and cellular site of mitotic activity in the exocrine pancreas of the rat during sustained hormone stimulation

Summary Previous studies from our laboratory indicate that the adaptive response of the exocrine pancreas of the rat to prolonged stimulation with optimal doses of caerulein (0.25 g × kg^-1 × h^-1) follows a characteristic time course in which each step in the secretory pathway is activated. The immediate response is the depletion of zymogen-granule stores followed by coordinate and anticoordinate changes in individual rates of (pro-)enzyme synthesis after a lag period of 2 h. The sum of such changes leads to an increase in total rate of protein synthesis by 3 h which is combined with acceleration of intracellular transport packaging and granule discharge. In the present study the time course of DNA synthesis and the labeling index of five populations of pancreatic cells have been analyzed after caerulein stimulation for periods ranging from 6 to 72 h, using in vivo labeling with 1 Ci/g ³H-thymidine 1 h prior to sacrifice of the animals. DNA synthesis did not change during the initial 18 h in spite of persistent stimulation indicated by a 80% reduction of enzyme content. Following this lag period a sharp rise in DNA synthesis 20- to 25-fold above control levels was observed, which decreased by 48 h to reach control levels by 72 h. Increase in DNA synthesis was most pronounced in animals with lowest enzyme content in the pancreas. From the five cell populations studied by autoradiography interlobular duct cells and islet cells had no significant increase in labeling index at any time of stimulation. Acinar cells, intralobular duct cells and interstitial cells showed a marked increase in labeling index after a latent period of 18 h with peak values at 36 h 30 to 50 times higher in intralobular duct and acinar cells, respectively, and 4 times higher in interstitial cells. The increased labeling indices in all three cell populations reverted to lower values at 48 h and reached control values by 72 h. The data indicate a phasic and limited growth response of the rat exocrine pancreas to persistent stimulation with acinar cells as the major contributing cell population.Supported by a grant from Deutsche Forschungsgemeinschaft (SFB215-C 3)     

Evidence for a direct trophic effect of bombesin on the mouse pancreas: in vivo and cell culture studies

The present work studied the effect of chronic bombesin on the mouse pancreas and analyzed whether or not this effect was direct. Bombesin administered s.c. 3 times daily for 4 days at various concentrations (0.1, 1, 10, 20 micrograms/kg b. wt.) induced pancreatic growth in a dose-dependent manner. This growth was characterized by an increase in pancreatic weight, its protein and RNA contents suggesting cellular hypertrophy. Pancreatic enzyme content was also increased, especially for amylase (14-fold) and at a lesser degree for chymotrypsin and lipase (2.5-fold). The DNA content of the gland increased significantly after a 1 microgram/kg bombesin treatment suggesting hyperplasia. [3H]thymidine incorporation into DNA increased slightly from 24 h after the first bombesin injection and more obviously at 72 and 96 h indicating DNA synthesis. To determine the direct effect of bombesin on pancreatic acinar cell growth cells were cultured as monolayers on collagen gels in media lacking added hormones and containing 2.5% FBS with or without bombesin (1 microM-1 nM) or caerulein (10 nM). [3H]thymidine incorporation into DNA was increased by caerulein (10 nM) and bombesin (100 nM and 1 microM). Therefore, it is concluded that bombesin is a pancreaticotrophic peptide in mice. Moreover, it is suggested that this effect occurs directly on pancreatic cells.     

Reversal of alpha-difluoromethylornithine inhibition of caerulein-induced pancreatic growth by putrescine

The role of ornithine decarboxylase and of polyamines was investigated on caerulein-induced pancreatic growth through the use of alpha-difluoromethylornithine (DFMO) and putrescine. Caerulein, the cholecystokinin analog, given at a dose of 1 microgram . kg-1 three times a day was associated with pancreatic hyperplasia and hypertrophy after 2 and 4 days of treatment. The present study shows that putrescine, given once daily i.p. at a dose of 300 mumol . kg-1, can reverse the previously observed DFMO inhibition on pancreatic DNA content increments stimulated by caerulein. It was also observed that putrescine inhibits severely the 2-day caerulein-induced pancreatic hypertrophy, yet interferes only moderately with 4 days of caerulein treatment. These data lend further support to the involvement of ornithine decarboxylase and polyamines in induced pancreatic growth.     

Somatostatin: a potential antigrowth factor for the exocrine pancreas

The increases in DNA synthesis and total DNA content after caerulein treatment support the trophic effect of this CCK analog on the pancreas. Over a 15 day caerulein treatment, pancreatic growth plateaued after 5 days and somatostatin is believed to be responsible for this phenomenon. The present study was undertaken to test this possibility. Rats were treated for 2 or 4 days with caerulein (1 μg · kg^?1), somatostatin antiserum plus caerulein or caerulein plus somatostatin (600 μg · kg^?1). Caerulein increased all parameters studied after 2 and 4 days; pancreatic hyperplasia was established after 2 days. The somatostatin antiserum significantly enhanced the effect of caerulein, especially on DNA synthesis and contents after 2 and 4 days. The trophic effect of caerulein was significantly reduced by somatostatin dramatically so with respect to hyperplasia. The effects of the somatostatin antiserum and those of somatostatin on stimulated pancreatic growth support the hypothesis that somatostatin may be considered an endogenous growth inhibitory factor for the pancreas.     

Immunocytochemical demonstration of ornithine decarboxylase in the rat exocrine pancreas using the protein A-gold technique

Previous studies from our laboratory have shown that caerulein, a cholecystokinin analog, can induce pancreatic growth. Because ornithine decarboxylase (ODC) could be involved in this process, it is of interest to localize and estimate ODC immunoreactivity in rat pancreatic acinar cells from control and caerulein-treated animals. This was carried out with the protein A-gold immunocytochemical technique. Rats received either saline (control) or caerulein at a dose of 1 microgram X kg-1 and were sacrificed 8 h after the first injection (control and caerulein group), 4 h after the second caerulein injection (second caerulein group), and 8 h after the third caerulein injection (third caerulein group). ODC immunoreactivity was revealed using a specific antibody. ODC was localized specifically in nuclei and rough endoplasmic reticulum (RER) of the pancreatic acinar cells and the number of gold particles was increased in both of these organelles by caerulein. Peak ODC immunoreactivity was observed in nuclei 4 h after the second caerulein injection, whereas it occurred 8 h after the third peptide injection in the RER. These studies are the first to demonstrate ODC localization in pancreatic acinar cells and show that the enzyme can be induced early upon growth stimulation of the organ by a cholecystokinin analog.     

Caerulein in supramaximal doses fails to stimulate pancreatic growth, but it forces secretory granulopoiesis

To determine how low or high dose of caerulein, a cholecystokinin analogue influence pancreatic growth, doses of caerulein were selected which were submaximal (1 microgram/kg i.p.) and supramaximal (10 micrograms/kg i.p.) for enzyme protein secretion. Rats were injected every 8 h for 7 days with saline, low, or high dose of caerulein. The low dose of caerulein significantly increased pancreatic weight and content of DNA, protein, and digestive enzymes. The high dose caerulein group did not differ from control in these parameters of pancreatic growth. The number of zymogen granules was increased in both caerulein-treated groups. However, zymogen granules in the high dose group were atypical, appearing lucent or having a dense core with a lucent halo. These results indicate that caerulein has a biphasic effect on both enzyme secretion and the trophic response of acinar cells, and that the inhibitory effect of high dose of caerulein on pancreatic growth is accompanied by alterations in acinar cell morphology.     

Ghrelin attenuates the development of acute pancreatitis in rat.

BACKGROUND: Ghrelin, a circulating growth hormone-releasing peptide isolated from human and rat stomach, stimulates growth hormone secretion, food intake and exhibits gastroprotective properties. Ghrelin is predominantly produced by a population of endocrine cells in the gastric mucosa, but its presence in bowel, pancreas, pituitary and hypothalamus has been reported. In human fetal pancreas, ghrelin is expressed in a prominent endocrine cell population. In adult pancreatic islets the population of these cell is reduced. The aim of present study was to investigate the influence of ghrelin administration on the development of acute pancreatitis. METHODS: Acute pancreatitis was induced in rat by caerulein injection. Ghrelin was administrated twice (30 min prior to the first caerulein or saline injection and 3 h later) at the doses: 2, 10 or 20 nmol/kg. Immediately after cessation of caerulein or saline injections the following parameters were measured: pancreatic blood flow, plasma lipase activity, plasma interleukin-1beta (IL-1beta) and interleukin 10 (IL-10) concentration, pancreatic DNA synthesis, and morphological signs of pancreatitis. RESULTS: Administration of ghrelin without induction of pancreatitis did not affect significantly any parameter tested. Caerulein led to the development of acute edematous pancreatitis. Treatment with ghrelin at the dose 2 nmol/kg, during induction of pancreatitis, was without effect on pancreatic histology or biochemical and functional parameters. Treatment with ghrelin at the dose 10 and 20 nmol/kg attenuated the development of pancreatitis and the effects of both doses were similar. Administration of ghrelin (10 or 20 nmol/kg) reduced inflammatory infiltration of pancreatic tissue and vacuolization of acinar cells. Also, plasma lipase activity and plasma IL-1beta concentration were reduced, and caerulein-induced fall in pancreatic DNA synthesis was reversed. Administration of ghrelin at the dose 10 and 20 nmol/kg was without effect on caerulein-induced pancreatic edema and pancreatitis-related fall in pancreatic blood flow. CONCLUSIONS: (1) Administration of ghrelin attenuates pancreatic damage in caerulein-induced pancreatitis; (2) Protective effect of ghrelin administration seems Background: Ghrelin, a circulating growth hormone-releasing peptide isolated from human and rat stomach, stimulates growth hormone secretion, food intake and exhibits gastroprotective properties. Ghrelin is predominantly produced by a population of endocrine cells in the gastric mucosa, but its presence in bowel, pancreas, pituitary and hypothalamus has been reported. In human fetal pancreas, ghrelin is expressed in a prominent endocrine cell population. In adult pancreatic islets the population of these cell is reduced. The aim of present study was to investigate the influence of ghrelin administration on the development of acute pancreatitis. Methods: Acute pancreatitis was induced in rat by caerulein injection. Ghrelin was administrated twice (30 min prior to the first caerulein or saline injection and 3 h later) at the doses: 2, 10 or 20 nmol/kg. Immediately after cessation of caerulein or saline injections the following parameters were measured: pancreatic blood flow, plasma lipase activity, plasma interleukin-1beta (IL-1beta) and interleukin 10 (IL-10) concentration, pancreatic DNA synthesis, and morphological signs of pancreatitis. Results: Administration of ghrelin without induction of pancreatitis did not affect significantly any parameter tested. Caerulein led to the development of acute edematous pancreatitis. Treatment with ghrelin at the dose 2 nmol/kg, during induction of pancreatitis, was without effect on pancreatic histology or biochemical and functional parameters. Treatment with ghrelin at the dose 10 and 20 nmol/kg attenuated the development of pancreatitis and the effects of both doses were similar. Administration of ghrelin (10 or 20 nmol/kg) reduced inflammatory infiltration of pancreatic tissue and vacuolization of acinar cells. Also, plasma lipase activity and plasma IL-1beta conc; concentration were reduced, and caerulein-induced fall in pancreatic DNA synthesis was reversed. Administration of ghrelin at the dose 10 and 20 nmol/kg was without effect on caerulein-induced pancreatic edema and pancreatitis-related fall in pancreatic blood flow. Conclusions: (1) Administration of ghrelin attenuates pancreatic damage in caerulein-induced pancreatitis; (2) Protective effect of ghrelin administration seems to be related the inhibition in inflammatory process and the reduction in liberation of pro-inflammatory IL-1beta.     

Effects of some gastrointestinal peptides on pancreatic growth in rats (preliminary results)

The purpose of this study was to estimate the effects of cholecystokinin (CCK), somatostatin (SS) pancreatic polypeptide (PP) and their interaction with each other, given them in single doses, on pancreatic secretion and pancreatic growth after long-term treatment in rats. The acute secretory effects of the above mentioned peptides were studied on conscious rats supplied with pancreatic, gastric and jugular vein cannulae. The pancreatic growth was characterized by measurements of pancreatic weight, desoxyribonucleic acid (DNA), protein, trypsin and amylase content after 5 days treatment. Amylase output was increased by caerulein alone, and given it in combination with somatostatin (SS), while its value decreased by SS alone. After 5 days treatment, the pancreatic weight, trypsin and amylase activity (hypertrophy) was increased by caerulein, and these values were not altered by S alone. In combinative administration of caerulein with somatostatin, the stimulatory effect by caerulein was decreased. PP given alone or in combination with caerulein decreased both the basal and stimulated amylase output. PP given for 5 days decreased pancreatic trypsin and amylase contents and counteracted the stimulatory effect by caerulein to these enzymes' contents. It has been concluded that: 1. caerulein stimulates both pancreatic enzyme secretion and pancreatic growth; 2. somatostatin inhibits the pancreatic secretion and caerulein induced pancreatic growth, but it does not affect the spontaneous growth of pancreas; 3. pancreatic polypeptide inhibits the pancreatic secretion and decreases pancreatic trypsin and amylase contents.     

Stimulation of pancreatic secretory process in the rat by low-molecular weight proteinase inhibitor

Summary Previous studies with rats have shown that a single oral dose of the proteinase inhibitor Camostate (FOY-305) induces release of cholecystokinin (CCK) into the circulation, which lasts for 3 to 6h. This transient endogenous release of hormone results in a depletion of pancreatic enzyme stores within 1 h and an increase in total rate of protein synthesis, which peaks at 6 to 9 h. At the level of individual enzyme biosynthesis a transient decrease in amylase and an increase in trypsinogen and chymotrypsinogen is observed. In the present study the time course of DNA synthesis and the labeling index of 5 populations of pancreatic cells have been analysed following a single oral dose of 50 or 100 mg/kg proteinase inhibitor, using in vivo labeling with 12 Ci/g body weight ³H-thymidine 1 h prior to sacrifice of the animals. DNA synthesis did not change during the initial 12 h following inhibitor feeding and then showed a phasic increase with a peak (20-fold) at 24h and intermediate increases (4- to 5-fold) at 18 and 36 h, respectively. From the 5 pancreatic cell populations studied by autoradiography the labeling indices of interlobular duct cells and islet cells did not change over the entire observation period. Acinar cells, intralobular duct cells and interstitial cells showed a marked increase in labeling index with peak values at 24h, which were 20-fold in acinar cells and 5.5- and 8.5-fold in intralobular duct cells and interstitial cells, respectively. The data demonstrate a significant growth response of pancreatic acinar tissue after a single episode of endogenous CCK-release, which is similar in extent, time course and cellular source as previously demonstrated during persistent stimulation of the pancreas by prolonged infusion of the CCK-analogue caerulein.     

Effect of treatment with submaximal and excessive doses of caerulein on pancreatic growth in newborn rats

Different groups of CFY female newborn rats were treated with saline, or 1 microgram/kg or 100 micrograms/kg doses of caerulein given s. c. 3 x/day. Application of 100 micrograms/kg dose of caerulein for 3 days stimulated pancreatic growth inducing pancreatic hyperplasia; both (1 and 100 micrograms/kg) doses evoked increase in trypsin/DNA ratio inducing pancreatic hypertrophy in 4-days-old rats. Using the indices as before application of 1 microgram/kg caerulein for 10 days stimulated pancreatic growth and both (1 and 100 micrograms/kg) doses elicited glandular hypertrophy in 11-days-old rats. In 24-old-rats the 1 microgram/kg doses of caerulein given for 3 days stimulated pancreatic growth and induced pancreatic hypertrophy, the 100 micrograms/kg doses of the peptide given for 3 days, however, evoked pancreatic aplasia and atrophy.     

Changes in pancreatic acinar cell nuclear number and DNA content during aging in the rat

Pancreatic acinar cells from rats 5 to 658 days (94 weeks) of age were isolated by enzymatic dissociation and stained with the DNA specific fluorochrome Hoechst 33258. The nuclear DNA content and the incidence of binucleation were estimated in these cells. Total pancreatic weight, RNA, protein and DNA, and the incorporation of 3H-thymidine into pancreatic acinar cell DNA were also estimated in similar animals as measures of pancreatic growth. From 5 to 17 days after birth, 95% of the cells were mononucleate diploid and 5% were binucleate diploid; but during the period of rapid pancreatic growth over the following 39 days, acinar cells became increasingly binucleate. By 56 days after birth, 64% of cells were binucleate with a diploid DNA content per nucleus; and the incidence of binucleation then remained constant. At 28 days of age, 4% of mononucleate cells were tetraploid, increasing to 6% at 658 days of age. At this time 3% of binucleate cells contained dual tetraploid nuclei. There is thus a rapid development towards diploid binucleate acinar cells in the growing, postnatal pancreas; and in the adult pancreas a small proportion of these cells develop tetraploid nuclei.     

Caerulein and secretin induced pancreatic growth: a possible control by endogenous pancreatic somatostatin

Pancreatic hypertrophy and hyperplasia following chronic joint (CA + SE), or separate, caerulein (CA: 1 microgram . kg-1) and secretin (SE: 75 micrograms . kg-1) administration were studied in parallel with pancreatic somatostatin (SRIF) contents following 2, 4, 7 and 10 days of treatment. Parameters indicative of pancreatic growth (tissue weight, DNA and protein contents, cellular protein concentrations) increased significantly after 2 days of CA or CA + SE and reached a plateau between days 4 and 10. SE merely induced a mild hypertrophy after 4 days. Endogenous pancreatic SRIF contents varied upon treatment, differently so with each peptide regimen. Indeed, CA and CA + SE treatments decreased total SRIF contents after 2 days with no effect thereafter. SE also decreased the latter after 2 days while significant increases were observed after 7 and 10 days. The inverse relationship seemingly existing between SRIF contents and the amplitude of hormonally-induced pancreatic growth supports the hypothesis that endogenous pancreatic SRIF, operating as an 'antigrowth' factor, may participate in the exogenous CA, SE and CA + SE stimulated pancreatic growth phenomena.     

The influence of nitric oxide on basal and cholecystokinin-8-induced proliferation and apoptosis in the rat pancreas

Nitric oxide (NO) is formed by different cell types in the pancreas. In this study, inhibition of endogenous nitric oxide by N(omega)-nitro-L-arginine (L-NNA) reduced the urinary excretion of NO(2)/NO(3) and raised serum L-arginine and the NO donator S-nitroso-N-acetylpenicillamine (SNAP) increased the urinary excretion of NO(2)/NO(3). The peptide cholecystokinin-8 (CCK-8) has a strong influence on exocrine pancreatic proliferation. Rat pancreas was excised and studied with regard to tissue weight, protein and DNA contents after 3 days of treatment with saline, L-NNA or SNAP given separately or combined with CCK-8. Further, proliferation of different pancreatic cells was studied with [3H]-thymidine incorporation and apoptotic activity was studied by analysing caspase-3 activity and histone-associated DNA fragments. The effects of L-NNA indicate that endogenous nitric oxide formation has a tonic inhibition on apoptosis in the pancreas during both basal condition and growth stimulation by CCK-8. In CCK-induced hyperplasia, NO inhibits the proliferation of acinar cells but stimulates ductal cells. Endogenous NO may regulate the balance between proliferation and apoptosis and in a situation of growth stimulation by CCK-8, it has a tonic inhibition on both mitogenesis and apoptosis thus slowing down the acinar cell turnover in the pancreas.     

Relationship between NF-kappaB and trypsinogen activation in rat pancreas after supramaximal caerulein stimulation

Intra-acinar cell nuclear factor-kappaB (NF-kappaB) and trypsinogen activation are early events in secretagogue-induced acute pancreatitis. We have studied the relationship between NF-kappaB and trypsinogen activation in rat pancreas. CCK analogue caerulein induces early (within 15 min) parallel activation of both NF-kappaB and trypsinogen in pancreas in vivo as well as in pancreatic acini in vitro. However, NF-kappaB activation can be induced without trypsinogen activation by lipopolysaccharide in pancreas in vivo and by phorbol ester in pancreatic acini in vitro. Stimulation of acini with caerulein after 6 h of culture results in NF-kappaB but not trypsinogen activation. Protease inhibitors (AEBSF, TLCK, and E64d) inhibit both intracellular trypsin activity and NF-kappaB activation in caerulein stimulated acini. A chymotrypsin inhibitor (TPCK) inhibits NF-kappaB activation but not trypsin activity. The proteasome inhibitor MG-132 prevents caerulein-induced NF-kappaB activation but does not prevent trypsinogen activation. These findings indicate that although caerulein-induced NF-kappaB and trypsinogen activation are temporally closely related, they are independent events in pancreatic acinar cells. NF-kappaB activation per se is not required for the development of early acinar cell injury by supramaximal secretagogue stimulation.     

The contradictory effects of nitric oxide in caerulein-induced acute pancreatitis in rats

This study was planned to observe the effects of nitric oxide synthesis on the antioxidative defense enzymes and pancreatic tissue histology in caerulein-induced acute pancreatitis. Acute pancreatitis was induced by intraperitoneal injections of 50 microg/kg caerulein, L-arginine used for NO induction and N(omega)-nitro-L-arginine methyl ester (L-NAME) used for NO inhibition. In the caerulein group acinar cell degeneration, interstitial inflammation, oedema and haemorrhage were detected. Pancreatic damage scores were decreased with both NO induction and inhibition (p<0.05). MDA, GSH-Px, CAT, GSH and SOD activities were significantly changed in the caerulein group and indicated increased oxidative stress. Both NO induction and inhibition decreased this oxidative stress. It is concluded that both nitric oxide induction and inhibition ameliorated caerulein-induced acute pancreatitis. The findings indicate that a certain amount of NO production has beneficial effects in experimental acute pancreatitis, but uncontrolled over-production of NO may be detrimental.     

Glucocorticoids effects on exocrine pancreatic secretion in caerulein-induced acute pancreatitis in the rat.

The present work reports on exocrine pancreatic secretion in control rats, adrenalectomized rats and hydrocortisone-treated (10 mg/Kg/d) rats during 7 days, under normal conditions and after induction of acute pancreatitis with caerulein (20 micrograms/Kg) by 4 subcutaneous injections at hourly intervals. Pancreatic secretion was seen to be affected by the procedure of adrenalectomy, which led to a marked reduction in the secretion of proteins and amylase with respect to control values. This was probably due to the decrease occurring in the zymogen granules in the acinar cells of the exocrine pancreas, a phenomenon which also led to a decrease in pancreatic weight observed in these animals. Treatment with hydrocortisone induced a decrease in the secretion of proteins and amylase, as well as an increase in pancreatic weight. This agrees with the accepted hypothesis that large amounts glucocorticoids stimulate the synthesis and storage of proteins in the exocrine pancreas, reducing the secretory phase. The administration of high doses of caerulein under these conditions led to acute pancreatitis in the three groups of animals. This was paralleled by a dramatic decrease in protein and amylase secretion and by severe interstitial edema of the pancreas and by increases in serum amylase values. In the case of the animals treated previously with hydrocortisone, the latter were tripled with respect to the control animals. The conclusion is offered that since the storage of enzyme proteins is governed by glucocorticoids, which furthermore increase the sensitivity of the acinar cells to stimulation by secretagogues, the administration of these substances during the development of pancreatic lesions such as acute pancreatitis is highly compromising to the organism.     

Effects of α-difluoromethylornithine on pancreatic growth induced by caerulein

The role of ornithine decarboxylase and of polyamines was investigated on caerulein-induced pancreatic growth by the use of α-difluoromethylornithine (DFMO), an enzyme-activated irreversible inhibitor of ornithine decarboxylase. By itself, DFMO did not affect the pancreatic gland at all but when combined with caerulein, it reduced the increases in DNA synthesis and DNA content initiated by the cholecystokinin analog. The general hypertrophic action of caerulein was not affected by DFMO but specific increases in amylase and chymotrypsin concentrations were observed after 2 days of caerulein. The effect on amylase concentration was further increased after 4 days but that on chymotrypsin was reversed, showing a significant decrease. These data suggest that the polyamines might be involved in pancreatic growth that is stimulated by caerulein and that their action could be mainly oriented towards cellularity. The specific decreases obtained in DNA synthesis and content brought about by DFMO support this observation.