Role of histamine H2-receptors in gastric and pancreatic release of somatostatin-like immunoreactivity during the gastric phase of a meal

The present study was designed to determine the role of H₂-receptors in the postprandial release of somatostatin-like immunoreactivity (SLI) from the gastric fundus and antrum and from the pancreas. In dogs subjected to laparotomy, the pylorus was bisected and a gastric fistula was created, following which 250 ml 20% liver extract (LE) at pH 7 or 2 were instilled intragastrically. In the fundic vein the incremental SLI rise in response to LE at pH 7 was 2423 ± 540 pg/ml during a control infusion of saline and 4780 ± 863 pg/ml during the infusion of cimetidine (1 mg/kg per h) (P < 0.05). In the antral vein the incremental SLI in response to LE at pH 7 was 2182 ± 530 pg/ml during the saline control but did not rise significantly during cimetidine infusion. In the pancreatic vein the incremental SLI level after LE at pH 7 was 1953 ± 358 pg/ml in the control experiments and 4430 ± 1024 pg/ml during cimetidine infusion (P < 0.025). The incremental inferior vena cava SLI level was approximately 925 pg/ml in both groups (not significant).The instillation of LE at pH 2 during the saline control lowered fundic vein SLI by 500 pg/ml; this decline was abolished during cimetidine infusion. In the antral vein the incremental SLI level of 15 750 ± 2514 pg/ml during saline was lowered to only 6728 ± 2257 pg/ml during cimetidine (ifP < 0.025). After LE at pH 2 the incremental pancreatic vein SLI level of if5641 ± to be one regulatory component in the modulation of gastric acid secretion and gastrin release [21,26] during the gastric phase of a meal. The possible involvement of H₂-receptors in this regulatory system is schematized in Fig. 7.Pancreatic SLI release is also influenced by H₂-receptors but this appears to depend on the intragastric pH; stimulation of the receptors appears to lower the pancreatic SLI response to neutral protein and raise the response to acidified protein. If these effects are due to stimulation of gastric and/or pancreatic H₂-receptors can not be determined from the present data.These findings, in conjunction with previous studies [21–25], reveal a highly complex regulatory system for somatostin release during the gastric phase of meal, and indicate that, in addition to the influence of muscarinic-cholinergic [23], adrenergic mechanisms [24] and prostaglandins [25], reveal a histaminergic influence must now be recognized.     

Effect of bombesin upon plasma somatostatin-like immunoreactivity, insulin and glucagon in normal and chemically sympathectomized dogs

The present study was designed to determine the effects of intravenously infused bombesin (10 ng/kg/min) upon basal and postprandial plasma somatostatin-like immunoreactivity (SLI), glucagon, insulin and triglyceride levels in normal (n = 12) and chemically sympathectomized (n = 11) dogs. Basal plasma SLI, glucagon and insulin levels rose significantly during the infusion of bombesin in the normal dogs, and this was not altered by chemical sympathectomy. Bombesin infusion enhanced the postprandial SLI response, while attenuating the postprandial glucagon response by 50% and the insulin response in the early postprandial phase of the meal. Sympathectomy did not significantly alter the basal levels of these polypeptides, but augmented the postprandial plasma SLI response during the first 90 min, and reduced the postprandial glucagon response during the infusion of bombesin. The postprandial insulin response was not affected by sympathectomy. In both normal and chemically sympathectomized dogs the rise in postprandial triglyceride levels was attenuated by bombesin infusion.     

Carbohydrates modulate opiate receptor mediated mechanisms during postprandial endocrine function

The present study was designed to determine the role of carbohydrates during naloxone-induced opiate receptor blockade upon the postprandial rise of plasma somatostatin (SLI), insulin and pancreatic polypeptide (PP) levels in response to protein and fat test meals in conscious dogs. Test meals consisting of 50 g liver extract + 50 g sucrose or 50 g corn oil + 50 g sucrose dissolved in 300 ml water were instilled intragastrically, respectively. Additionally, liver extract and fat meals were given with a concomitant intravenous infusion of glucose. To all test meals either naloxone (4 mg) or saline was added. The addition of sucrose to liver extract or the infusion of i.v. glucose during the liver meal abolished the inhibitory effect of naloxone on the rise of postprandial somatostatin levels which has been described recently. The addition of carbohydrate either orally or intravenously to the fat meal resulted in an even stimulatory effect of naloxone upon the rise of postprandial somatostatin levels. Insulin levels were not changed during liver extract + sucrose or i.v. glucose, respectively. When sucrose or i.v. glucose was administered together with the fat meal the addition of naloxone augmented postprandial insulin secretion. Pancreatic polypeptide (PP) release was augmented during the combination of sucrose or i.v. glucose with the fat and liver meal when naloxone was present in the meals. The present data demonstrate that the addition of carbohydrates either orally or intravenously to fat and protein meals modulates the effect of endogenous opiates in the regulation of postprandial somatostatin, insulin and pancreatic polypeptide release in dogs in a way that carbohydrates induce inhibitory mechanisms that are mediated via endogenous opiate receptors.     

Rate dependent stimulation of insulin and glucagon but not gastrin and somatostatin release during the intestinal phase of a meal

Previous studies have indicated a possible influence of gastric emptying on postprandial pancreatic endocrine function and the present study was designed to determine if the rate at which nutrients enter the small intestine may play a role in the postprandial regulation of insulin, glucagon, somatostatin and gastrin release in conscious dogs. In response to an intraduodenal instillation of a liver extract--sucrose test meal postprandial insulin and glucagon levels increased significantly with increasing infusion rates of the test meal, whereas somatostatin and gastrin levels did not change. The rise of the endocrine factors preceded any increase of peripheral vein plasma glucose levels. The present data demonstrate that during the intestinal phase of a meal the rate of nutrient entry into the duodenum favours insulin and glucagon but not somatostatin and gastrin release. This mechanism could be of importance in the regulation of nutrient homeostasis during the ingestion of certain carbohydrate containing meals.     

Somatostatin release from perifused rat and human gastric mucosa

In the present study the release of somatostatin-like immunoreactivity (SLI) was evaluated in vitro from isolated rat antral and fundic mucosa and from biopsy specimens of human antral mucosa. Perifusion of antral mucosa with Earle's balanced salt solution showed a pH-dependent release of SLI. SLI release did not change in response to a reduction from pH 7 during the baseline period to pH 3, whereas a significant increase occurred when the pH was changed to 2.5 or 2, respectively. Fundic SLI release remained at baseline levels during the decrease of the pH value of the buffer solutions. Atropine at doses of 10(-6) to 10(-4) M did not alter acid-induced SLI release from the isolated antral mucosa, suggesting different mechanisms in vitro compared to the acid-induced SLI release in vivo. SLI release from human mucosa was 450 +/- 217 pg/min X mg wet weight in response to perifusion with the buffer pH 2 in 7 control subjects. No significant difference was observed in patients with duodenal ulcer or acute gastritis, whereas gastric ulcer patients had significantly lower values (66 +/- 44) compared to controls and duodenal ulcer patients. These data do not support the hypothesis that impaired somatostatin production and release might be a pathogenetic factor for gastric acid hypersecretion and development of duodenal ulcer.     

Effect of naloxone on pancreatic and gastric endocrine function in response to carbohydrate and fat-rich test meals

The present study was designed to determine the effect of naloxone, a specific opiate receptor antagonist, on postprandial levels of insulin, glucagon, pancreatic polypeptide (PP), somatostatin-like immunoreactivity (SLI) and gastrin in response to carbohydrate and fat-rich test meals in a group of 6 healthy volunteers. The addition of naloxone to a meal consisting of 50 g sucrose dissolved in 200 ml water augmented the rise of plasma insulin levels significantly during the first 30 min after its ingestion and reduced the decrease of plasma glucagon. During the ingestion of a fat-rich meal in form of 200 ml cream naloxone reduced the rise in plasma insulin and pancreatic polypeptide and elevated glucagon levels during the last 30 min of the experimental period. When sucrose was dissolved in 200 ml cream the addition of naloxone augmented the postprandial rise of insulin levels between 15 and 60 min after ingestion of the meal and elicited an increase of plasma SLI and PP levels throughout the entire experimental period which indicates that post-prandial levels of insulin, glucagon, PP and SLI are modulated via endogenous opiate receptors during the ingestion of carbohydrate and fat test meals and that this effect depends on the composition of the ingested nutrients. These data raise the possibility that endogenous opiates participate in the regulation of postprandial insulin, glucagon, somatostatin and pancreatic polypeptide release not only in certain disease states as demonstrated recently for insulin secretion in type II diabetes mellitus but endogenous opiates may also be of importance under physiological conditions.     

24-Hour plasma secretin level and pancreatic secretion in dog

Plasma secretin concentrations were determined and duodenal pH was recorded continuously for a period of 24 hours after ingestion of a meal in 3 dogs with gastric cannula and duodenal cannula and in 4 dogs with pancreatic fistulae. The mean plasma secretin concentration increased significantly after a meal and it remained elevated for the first 12-hour period (peak at 30 min). Duodenal pH frequently decreased below 4.5 during the first 12-hour postprandial period, but it remained above 5.0 during the second 12 hours. Pancreatic secretion peaked during the first hour of meal ingestion and remained elevated until the end of 12 hours. The increased plasma secretin level in pancreatic fistula dog during the postprandial period was significantly greater than that of duodenal cannula dog, but the trends of increase in the secretin levels were quite identical. The present study indicates that: (1) plasma secretin concentration increases significantly within 30 min after a meal and remains increased during the first 12-hour period, (2) duodenal pH frequently decreased below 4.5 during the same 12 hours but more frequently during the first 6 hours, and (3) a significant increase in pancreatic water, HCO₃^? and protein occurred during the same time period.     

Effect of opiate-active substances on pancreatic polypeptide levels in dogs

The present study examines the effect of orally and intravenously administered opiate-active substances on peripheral vein plasma pancreatic polypeptide (PP) levels in conscious dogs. The intragastric instillation of digested gluten stimulated postprandial PP levels significantly which was reduced by the specific opiate-receptor antagonist naloxone. Naloxone had no effect when added to undigested gluten. Similarly, naloxone reduced significantly the postprandial PP response to a test meal of casopeptone which contains the opiate-active β-casomorphins. The addition of synthetic β-casomorphins to a liver extract/sucrose test meal significantly augmented the rise of postprandial PP levels which was also blocked by naloxone. The intravenous infusion of morphine, leu-enkephalin, D-ala²-D-leu⁵-enkephalin, β-casomorphin-5 and β-casomorphin-4 elicited a dose-dependent and naloxone reversible effect on basal PP levels. During a background infusion of glucose and amino acids the same opiate-active substances had either none or a stimulatory effect on PP release in these dogs. The addition of naloxone abolished the stimulatory effect in response to β-casomorphin-5 and β-casomorphin-4 and resulted in an inhibition of PP levels during the infusion of morphine and leu-enkephalin. This latter inhibitory effect was no longer observed when the dose of naloxone was increased ten- and fifty-fold, respectively. The present data suggest that orally ingested opiate-active substances participate in the stimulation of postprandial PP release in dogs via specific opiate-receptor mediated mechanisms. The effect of intravenously administered opiate-active substances on PP levels depends on the metabolic state with regard to the level of circulating nutrients. It is suggested that PP release is stimulated via μ-opiate receptors and inhibited via δ-opiate receptors. An increase of circulating nutrients would “activate” μ-receptor sites which are masked in the basal state when exogenous opiates are administered. However, with regard to endogenous opiates an increase of circulating nutrients, mainly carbohydrates, activates inhibitory effects of endogenous opiates suggesting that exogenous and endogenous opiates act at different target sites.     

Properties of immunoreactive glucagon fractions of canine stomach and pancreas.

The present study was designed to identify the physicochemical, immunologic, and biologic properties of the immunoreactive glucagon (IRG) moieties of canine gastric fundus and to compare them with those of the canine pancreas. Acid-alcohol extracts of the gastric fundus and pancreas of dogs were subjected to Bio-Gel P-10 chromatography, The elution profiles of extracts of both organs revealed IRG peaks in the Mr = 2,000 3,500, and 9,000 zones; in the gastric extracts, a void volume peak was also present. On the basis of Sephadex G-150 rechromatography and sucrose density gradient ultracentrifugation the latter IRG was estimated to have a Mr = 65,000. Incubation of fundic IRG65,000 in 8 M urea failed to alter its elution position. Its pI was 6.4, while fundic IRG3,500 had a pI of 6.15 and pancreatic glucagon 6.25.Fundic IRG9,000 had a pI of 4.5 and pancreatic IRG9,000 4.65. Dilution curves of these three fundic and two pancreatic IRGs were parallel to crystalline beef-pork glucagon. The glycogenolytic activity of fundic IRG3,500 and IRG65,000, measured in the isolated rat liver system, was not different from that of immunoequivalent amounts of dog pancreatic glucagon or crystalline beef-pork glucagon. Both fundic and pancreatic IRG9,000 were devoid of glycogenolytic activity and lacker adenylate cyclase stimulating activity and 125I-glucagon displacing activity when tested on partially purified rat liver membranes. Fundic IRG65,000, however, stimulated adenylate cyclase and displaced 125I-glucagon to the same degree as immunoequivalent amounts of pancreatic glucagon. Fundic IRG3,500 was more active than pancreatic glucagon in stimulating adenylate cyclase activity. This was not clearly attributable to differences in binding to liver cell membranes.     

Presence of somatostatin-like immunoreactivity in rat pancreatic juice: a physiological phenomenon

These studies were performed to assess the effects of various exocrine pancreatic stimuli on somatostatin-like immunoreactivity (SLI) secretion in pure rat pancreatic juice. Ingestion of a meal and subcutaneous injections of caerulein (CA), secretin (SE), and their combination (CA + SE) were compared. Basal fasting SLI output over 5 1/2 h averaged 13.7 ng/30 min; the response to feeding resulted in decreased SLI outputs from 9.7 to 1.7 ng/30 min, a reduction of 81%. SLI secretion following CA, SE, and CA + SE was similar to that obtained following feeding but the reductions of 29, 32, and 39% were less marked and of shorter duration. A return to basal SLI levels was observed only 2 1/2 h following CA administration. Increases in pancreatic volume and protein outputs following CA, SE, and CA + SE were comparable to the feeding response although less pronounced. These data indicate that SLI secretion in pure pancreatic juice can be modulated by two peptides and feeding and that its release is reduced when compared with increases in pancreatic volume and protein secretion. The observation that the peptide's response in terms of SLI output as well as protein and volume were in the same range, although less sustained than the response to a meal, indicates that all stimuli used induced a physiological response of the pancreas.     

Increased sensitivity to somatostatin in obese Zucker rats

The release of somatostatin from the pancreas and stomach following the ingestion of a meal and its increase in the peripheral circulation elicits an attenuation of postprandial hormone secretion such as insulin, pancreatic polypeptide and gastrin and retards the rate at which nutrients enter the circulation. Reduced tissue somatostatin content and/or an attenuated somatostatin release is associated with hyperinsulinism and obesity in certain animal models. In the obese Zucker rat, however, tissue somatostatin levels are increased and therefore the present study was designed to determine the effect of synthetic somatostatin on basal and postprandial arterial insulin levels in obese and lean Zucker rats. Synthetic somatostatin was infused at doses of 0.25, 0.5, 1 and 5 ng/kg X min before and after the intragastric instillation of a liver extract/sucrose test meal. In the obese rats somatostatin at a dose of 5 ng/kg X min reduced basal plasma insulin levels significantly, whereas no effect of somatostatin was observed on basal insulin levels in the lean animals at all doses employed. The integrated postprandial insulin response was reduced during 0.25, 0.5, 1 and 5 ng/kg X min somatostatin in the obese animals, whereas only 0.5 ng/kg X min and higher doses had an inhibitory effect in the lean rats. The degree of inhibition in relation to the postprandial insulin response during saline infusions was 35-230% in the obese and 30-100% in the lean Zucker rats within the range of somatostatin infusions employed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Gastrin release after truncal vagotomy in fistula dogs: Hypersensitivity to bombesin but not bethanechol

Integrated gastrin response was measured by the serial changes in serum immunoreactive gastrin after various stimuli in three dogs with gastric fistula and highly selective fundic vagotomy, who were then subjected to truncal vagotomy. Truncal vagotomy eliminated the gastrin as well as the gastric acid response to vagal excitation by 2-deoxy-glucose, but did not significantly change the responses to bethanechol (20 or 120 μg/kg/hr by IV infusion). Acid output was the same with bombesin or its nonapeptide in the dogs with fundic vagotomy as it was after subsequent truncal vagotomy, but gastrin release was very much increased by truncal vagotomy. For a 3-hour infusion of bombesin integrated gastrin release was 65 and 143 ng/ml/min and for its nonapeptide 43 and 109 ng/ml/min in the dogs with fundic and truncal vagotomy respectively. The marked hypersensitivity of the gastrin response after truncal vagotomy to bombesin but not to a cholinergic agonist suggests that the antral denervation led to a post-denervation hyper-response to the putative transmitter, bombesin, and that the vagal release of antral gastrin may thus represent a peptidergic neurohormonal mechanism. Also, a long half-life of effect suggests that bombesin binds avidly to its receptors.     

Modulation of motilin-induced somatostatin release in dogs by naloxone

Somatostatin release in dogs is modulated by exogenous and endogenous opioids. Since postprandial somatostatin secretion is in part due to the stimulatory effect of postprandially activated gastrointestinal hormones as well as endogenous opioids, it was of interest to determine the interaction between motilin, a known stimulus of somatostatin release, and endogenous opioids with regard to activation of D-cell function. In a group of eight conscious dogs the infusion of synthetic porcine motilin at doses of 0.05, 0.25 and 0.5 micrograms/kg X hr elicited a significant increase of peripheral vein plasma somatostatin-like immunoreactivity (SLI), confirming previously reported data. The additional infusion of the opiate receptor antagonist naloxone attenuated this SLI response, suggesting that endogenous opioids participate in motilin-induced SLI release. Since previous studies have shown that the interaction between endogenous opioids and postprandial somatostatin secretion is modified by elevated plasma glucose levels, the experiments were repeated during an IV glucose (0.2 g/min) background infusion increasing circulating glucose levels by 20-30 mg/dl. During IV glucose, the SLI response to motilin was almost abolished. In this group the addition of naloxone restored the SLI response, indicating that the inhibitory effect of elevated glucose on D-cell function is, at least in part, mediated by endogenous opioids. These data suggest that motilin has to be considered as one regulatory factor which participates in the previously observed interaction between glucose and endogenous opioids during postprandial SLI release.     

Role of vagus nerve in postprandial antropyloric coordination in conscious dogs

It is generally believed that gastric emptying of solids is regulated by a coordinated motor pattern between the antrum and pylorus. We studied the role of the vagus nerve in mediating postprandial coordination between the antrum and pylorus. Force transducers were implanted on the serosal surface of the body, antrum, pylorus, and duodenum in seven dogs. Dogs were given either a solid or a liquid meal, and gastroduodenal motility was recorded over 10 h. Gastric emptying was evaluated with radiopaque markers mixed with a solid meal. Dogs were treated with hexamethonium, N(G)-nitro-l-arginine methyl ester (l-NAME), or transient vagal nerve blockade by cooling. A postprandial motility pattern showed three distinct phases: early, intermediate, and late. In the late phase, profound pyloric relaxations predominantly synchronized with giant antral contractions that were defined as postprandial antropyloric coordination. A gastric emptying study revealed that the time at which gastric contents entered into the duodenum occurred concomitantly with antropyloric coordination. Treatment by vagal blockade or hexamethonium significantly reduced postprandial antral contractions and pyloric relaxations of the late phase. l-NAME changed pyloric motor patterns from relaxation dominant to contraction dominant. Solid gastric emptying was significantly attenuated by treatment with hexamethonium, l-NAME, and vagal blockade. Postprandial antropyloric coordination was not seen after feeding a liquid meal. It is concluded that postprandial antropyloric coordination plays an important role to regulate gastric emptying of a solid food. Postprandial antropyloric coordination is regulated by the vagus nerve and nitrergic neurons in conscious dogs.     

Effect of CCK-8 on basal and meal-stimulated somatostatin in the baboon

We measured the ability of CCK-8 alone, a test meal alone, or a combination of the two, to increase peripheral plasma somatostatin levels in the baboon. Baboons received a five-minute intravenous infusion of either CCK-8 (1, 2, or 4 micrograms/kg) or saline prior to a 30-minute meal. CCK-8 administration at all doses resulted in a significant rise of plasma somatostatin-like immunoreactivity (SLI). In addition, ingestion of a meal following a control saline infusion resulted in a significant rise of plasma SLI. However, the meal-related rise in SLI was blunted by prior administration of CCK-8 at all doses, including a dose which did not significantly decrease meal size. CCK-8 administration at all doses also blunted the meal-related rise of plasma insulin and glucose. We conclude that the known ability of CCK-8 to inhibit gastric emptying, as well as to decrease meal size, may account for its suppression of the meal-related SLI release.     

Stimulation of gastric glucagon secretion by epinephrine administration in dogs

To determine the response of gastric A-cells to adrenergic substances, immunoreactive glucagon was determined simultaneously in the jugular vein and in the left gastroepiploic vein of totally depancreatized dogs. Under basal conditions a significant gradient of glucagon concentrations between the jugular and gastric veins was observed, whereas plasma insulin values were almost undetectable. Intravenous administration of epinephrine elicits a prompt and significant increase in glucagon concentrations in the gastric vein which persist during the time of hormone infusion. To ensure adequate adrenergic blockade, blockers were infused before epinephrine administration. Accordingly, after phentolamine, the infusion of epinephrine failed to increase gastric glucagon concentrations, while after propranolol, epinephrine induced a significant release of gastric glucagon. These results indicate that epinephrine stimulates gastric glucagon secretion and that this effect is mediated through alpha-adrenergic receptors.     

Role of cholecystokinin in the control of gastric somatostatin in the rat: in vivo and in vitro studies.

Cholecystokinin (CCK) has been shown to be a powerful stimulus for somatostatin release from isolated canine fundic D-cells in short-term culture. The influence of the CCK analogue caerulein on the secretory activity of the D-cell in the intact stomach in vitro and the effect of elevated plasma levels of endogenous CCK on gastric somatostatin stores in vivo were investigated in the rat. Basal somatostatin secretion from the isolated, vascularly perfused rat stomach preparation was not affected by various doses of caerulein. Slight stimulation of somatostatin-like immunoreactivity (SLI) release by epinephrine was significantly inhibited by caerulein, whereas caerulein did not alter half-maximal stimulation of SLI secretion by isoproterenol. Rats with chronically elevated plasma CCK levels induced by experimental exocrine pancreatic insufficiency did not show any change in tissue concentrations of SLI or in D-cell number, both in the antrum and corpus. These data suggest that CCK--in contrast to dogs--is not an important modulator of gastric somatostatin in the rat.     

Effect of vagotomy and atropine on plasma somatostatin response to a meal in conscious dogs

In 4 conscious dogs with gastric fistulas the somatostatin responses to a meal were measured and compared to the responses seen after i.v. infusion of atropine sulfate (20 and 50 micrograms.kg-1.h-1) or cimetidine (8 mg.kg-1.h-1). The experiments were repeated after truncal vagotomy. The somatostatin responses to bombesin (0.5 micrograms.kg-1.h-1) were also measured before and after vagotomy. Vagotomy decreased basal and postprandial somatostatin levels and reduced the somatostatin responses to feeding during the first 30-min period following the ingestion of the meal but not during subsequent periods. Bombesin-induced somatostatin release was increased after vagotomy. Atropine decreased the somatostatin responses to the meal before and after vagotomy. Cimetidine had no significant effect. These studies suggest that, in conscious dogs, somatostatin released into the circulation is partly under vagal control and that, as for gastrin release, vagal pathways for stimulation and inhibition are present. Our studies also suggest that cholinergic mechanisms are involved in the control of postprandial somatostatin release.     

Evidence for a role of endogenous opiates in postprandial somatostatin release

Previously, we have demonstrated the effects of exogenously administered opiates on somatostatin release in dogs and therefore the present study was designed to determine the effect of endogenous opiates via naloxone-induced opiate receptor blockade on somatostatin release. Additionally, plasma insulin and pancreatic polypeptide (PP) levels were determined in response to intragastrically instilled protein, carbohydrate and fat test meals in a group of eight conscious dogs. To all test meals either naloxone (4 mg) or saline was added. The rise of plasma somatostatin levels in response to liver extract, sucrose and fat was attenuated significantly by naloxone. Naloxone had no effect on the rise of postprandial plasma insulin and PP levels. The present data demonstrate that endogenous opiates have a stimulatory effect on postprandial somatostatin release in dogs which indicates a tight interaction that might be of relevance for nutrient homeostasis.     

Dose-dependent inhibitory and non-inhibitory action of somatostatin on insulin release in rats

The dose-dependent effect of intravenously infused synthetic somatostatin-14 on basal and postprandial insulin and gastrin release was assessed in anesthetized rats.Infusion of 1 ng · kg^?1 · min^?1 elicited a significant reduction of basal and postprandial insulin levels compared to the saline control group. At 15 ng · kg^?1 · min^?1 basal insulin was not affected but postprandial insulin levels were still significantly reduced. At 30 ng · kg^?1 · min^?1 neither basal nor stimulated insulin levels were affected. At the highest concentration of 120 ng · kg^?1 · min^?1 basal and postprandial insulin levels were suppressed similar to the lowest infusion rate of 1 ng · kg^?1 · min^?1. Basal gastrin levels were significantly reduced only at the highest rate of 120 ng · kg^?1 · min^?1. A significant reduction of postprandial gastrin levels was observed at 15 ng · kg^?1 · min^?1 and all higher infusion rates employed. Measurements of plasma somatostatin-like immunoreactivity (SLI) demonstrated that plasma SLI levels during the lowest infusion rate of 1 ng · kg^?1 · min^?1 were not different from the controls. No significant rise of plasma SLI levels was observed in response to the test meal. The higher infusion rates elicited a dose-dependent increase in plasma SLI levels. These data demonstrate that in rats somatostatin exerts a biological effect on insulin release at very low doses while certain greater infusion rates have no suppressive effect. Gastrin secretion is inhibited in a more linear pattern.