Effect of sandostatin on CRF-stimulated secretion of ACTH, beta-lipotropin and beta-endorphin.

The influence exerted by somatostatin on the secretion of ACTH and opioid peptides has still to be clarified. To gain further information on this issue, we performed in 10 normal volunteers two CRF tests (100 micrograms i.v.) one of which was preceded by s.c. injection of 100 micrograms of the long-acting somatostatin analogue SMS 201-995 (Sandostatin, Sandoz) (SMS), given 30 minutes before CRF. Premedication with SMS markedly inhibited the response of beta-EP to CRF, leaving unchanged the response of beta-LPH, ACTH and cortisol; mean incremental areas of beta-EP were 199.8 +/- 49.31 (SEM) vs 532.9 +/- 95.91 pmol 120 min (P less than 0.01) in the CRF test with and without SMS, respectively. To interpret the selective inhibitory effect of SMS on CRF-stimulated beta-EP secretion, it can be hypothesized that: a) the action of SMS was confined to a population of pituicytes preferentially secreting beta-EP; b) SMS interfered with the processing of POMC inhibiting the formation of beta-EP; c) SMS acted on extrapituitary, possibly peripheral, sources of beta-EP. In conclusion, this study indicates that, in man, somatostatin selectively inhibits the CRF-induced secretion of beta-EP, but not that of ACTH and beta-LPH, by an action that may be exerted at pituitary or extrapituitary level. This is a further example of dissociated secretion of POMC-derived peptides.     

Suppression of superoxide release from human monocytes by somatostatin-related peptides.

Somatostatin and octreotide share with vasoactive intestinal peptide the property of having an inhibitory effect on leukocyte functions. While there are studies reporting the inhibitory effect of the latter on respiratory burst in human monocytes, no such reports are available about similar inhibitory effects of the former. The aim of the present study was to investigate such effects of somatostatin and octreotide on human monocytes. Release of superoxide anion from monocytes was measured by superoxide dismutase-inhibitable reduction of cytochrome c in vitro. Somatostatin 1-14, somatostatin 1-28 and octreotide inhibited release of superoxide anion from stimulated monocytes. Formylpeptide-stimulated reduction of cytochrome c was inhibited by 1 mumol/l of octreotide and somatostatin 1-14 by about 50% and 35%, respectively. The effect was dose-dependent with half-maximal effective peptide concentrations at about 10 nmol/l. Somatostatin 1-28, which is the major form found in circulating plasma, also antagonized formylpeptide-stimulated respiratory burst activity; when directly compared to the effect of 1 mumol/l of somatostatin 1-14, somatostatin 1-28 was significantly more active (P less than 0.05). Our observations suggest that somatostatin-related peptides have a regulatory role in oxygen radical metabolism and a mediator role in the neuro-immune axis.     

Proghrelin-derived peptides influence the secretion of insulin, glucagon, pancreatic polypeptide and somatostatin: a study on isolated islets from mouse and rat pancreas

Proghrelin, the precursor of the orexigenic and adipogenic peptide hormone ghrelin, is synthetized in endocrine (A-like) cells in the gastric mucosa. During its cellular processing, proghrelin gives rise to the 28-amino acid peptide desacyl ghrelin, which after octanoylation becomes active acyl ghrelin, and to the 23-amino acid peptide obestatin, claimed to be a physiological opponent of acyl ghrelin. This study examines the effects of the proghrelin products, alone and in combinations, on the secretion of insulin, glucagon, pancreatic polypeptide (PP) and somatostatin from isolated islets of mice and rats. Surprisingly, acyl ghrelin and obestatin had almost identical effects in that they stimulated the secretion of glucagon and inhibited that of PP and somatostatin from both mouse and rat islets. Obestatin inhibited insulin secretion more effectively than acyl ghrelin. In mouse islets, acyl ghrelin inhibited insulin secretion at low doses and stimulated at high. In rat islets, acyl ghrelin inhibited insulin secretion in a dose-dependent manner but the IC(50) for the acyl ghrelin-induced inhibition of insulin release was 7.5 x 10(-8) M, while the EC(50) and IC(50) values, with respect to stimulation of glucagon release and to inhibition of PP and somatostatin release, were in the 3 x 10(-12)-15 x 10(-12) M range. The corresponding EC(50) and IC(50) values for obestatin ranged from 5 x 10(-12) to 20 x 10(-12) M. Desacyl ghrelin per se did not affect islet hormone secretion. However, at a ten times higher concentration than acyl ghrelin (corresponding to the ratio of the two peptides in circulation), desacyl ghrelin abolished the effects of acyl ghrelin but not those of obestatin. Acyl ghrelin and obestatin affected the secretion of glucagon, PP and somatostatin at physiologically relevant concentrations; with obestatin this was the case also for insulin secretion. The combination of obestatin, acyl ghrelin and desacyl ghrelin in concentrations and proportions similar to those found in plasma resulted in effects that were indistinguishable from those induced by obestatin alone. From the data it seems that the effects of endogenous, circulating acyl ghrelin may be overshadowed by obestatin or blunted by desacyl ghrelin.     

Somatostatin analog SMS 201995 inhibits proliferation in human leukemia T-cell line: relevance of the adenylyl cyclase stimulation

Octreotide SMS 201995 is a stable somatostatin (SRIF) analog with potent antiproliferative actions in numerous cell types including normal T lymphocytes. It is currently used in the clinical treatment of different malignancies. However, the possible beneficial actions of octreotide in T-cell leukemia have not been addressed before, although these cells express SRIF receptors. For instance, human leukemia Jurkat T cells have been shown to express a single SRIF receptor isotype: sst3 that can be pharmacologically targeted by octreotide. In this study, we therefore studied SMS 201995 effects on in vitro [(3)H-CH3]thymidine incorporation in Jurkat T cells. Our data show that octreotide inhibits the proliferation of Jurkat cells both in the absence and in the presence of mitogens. By contrast, SRIF28, an endogenous SRIF analog sharing with SMS 201995 an almost identical affinity for somatostatin sst3 receptors, increases [(3)H-CH3]thymidine uptake in both mitogen-activated and nonactivated cells. To assess the mechanisms of the opposite actions of these two analogs on leukemia T-cell proliferation, we next studied their effects on adenylyl cyclase activity in whole Jurkat cells. At least in the presence of mitogens, SMS 201995 significantly enhances the adenylyl cyclase activity whereas SRIF28 inhibits it. Taken together these data are in accordance with the current hypothesis according to which increase and decrease in cAMP production are required to allow the inhibition and stimulation of T-cell proliferation, respectively. They also point to a potential therapeutic benefit of SMS 201995 in the management of human T-cell leukemia.     

Effect of prolonged administration of long-acting somatostatin on caerulein, CCK-8 and GRP induced pancreatic growth in the rat.

This work investigates the effects of the long-acting somatostatin analogue, octreotide also named SMS 201-995 or Sandostatin, on pancreatic growth in function of the dose and duration of treatment. Octreotide was administered s.c. twice daily, while pancreatico-trophic peptides, caerulein and CCK-8 (1.8 nmol/kg b.wt.) or GRP (3.6 nmol/kg b.wt.) were administered s.c. three times daily. Octreotide (1,10,20 micrograms/kg b.wt.) administered for 4 days reduced pancreatic growth induced by caerulein in a dose-dependent manner. This effect, significant from 10 micrograms/kg, was more obvious with 20 micrograms/kg. At this latter dose, octreotide inhibited significantly the increase in pancreatic weight and protein, RNA, DNA and enzyme content induced by a 4- or 10-day treatment with GRP. A similar effect was observed after a 4-day treatment with CCK-8, but after a 10-day treatment only protein and enzyme contents were reduced. Octreotide by itself did not affect pancreatic size and composition after a 10-day treatment, but decreased enzyme content after a 4-day treatment. It is concluded that octreotide exerts an antitrophic effect on the rat exocrine pancreas which depends on the dose and duration of treatment and can be modulated by the trophic factor applied for a long-term.     

Somatostatin does not attenuate intestinal injury in dextran sodium sulphate-induced subacute colitis.

FRom several in vitro and in vivo studies involvement of somatostatin (SMS) in intestinal inflammation emerge. Acute colitis induced in rats is attenuated by the long-acting SMS analogue octreotide. We studied the potential beneficial effect of SMS on non-acute experimental colitis. BALB/c mice received either saline, SMS-14 (36 or 120 microg daily) or octreotide (3 microg daily) subcutaneously delivered by implant osmotic pumps. A non-acute colitis was induced by administration of dextran sodium sulphate (DSS) 10% in drinking water during 7 days. DSS evoked a mild, superficial pancolitis, most characterized by mucosal ulceration and submucosal influx of neutrophils. Neither SMS-14 nor octreotide reduced mucosal inflammatory score or macroscopical disease activity, although reduction of intestinal levels of interleukin-1beta (IL-1beta), IL-6 and IL-10 during DSS was augmented both by SMS and octreotide. A slight increase of neutrophil influx was seen during SMS administration in animals not exposed to DSS. In conclusion, SMS or its long-acting analogue did not reduce intestinal inflammation in non-acute DSS-induced colitis. According to the cytokine profile observed, SMS-14 and octreotide further diminished the reduction of intestinal macrophage and Th2 lymphocyte activity.     

Regulation of insulin and glucagon secretion from rat pancreatic islets in vitro by somatostatin analogues

Somatostatin is an inhibitor of hormone secretion through specific receptors (sst1-5). The aim of this study was to investigate the putative regulatory role of somatostatin analogues on the secretion of insulin and glucagon by rat pancreatic islets. After 48 h exposure only the non-selective agonists (somatostatin, octreotide and SOM-230) inhibited insulin accumulation. The inhibition of insulin secretion was accompanied by increased islet insulin contents. None of the analogues showed a consistent effect on the glucagon accumulation in the medium after 48 h. Since we observed a difference in the regulatory effect between the non-selective and selective analogues, combinations of selective analogues were studied. Combination of sst2+sst5 agonists inhibited the medium insulin accumulation, while combination of sst1+sst2 analogues caused a decrease in glucagon accumulation. After removal of somatostatin a rebound effect with increased insulin secretion were observed. This effect was reversed after 6 h. For SOM-230 insulin secretion continued to be suppressed even after the analogue was removed and returned to control values after 3 h. As for glucagon secretion there was an initial decline after culture with octreotide, while the other substances failed to induce any changes. In summary, non-selective somatostatin analogues or combinations of receptor selective analogues may cause inhibition of hormone secretion from rat pancreatic islets. For insulin and glucagon, combinations of sst2+sst5 and sst1+sst2, respectively may exert this effects. Thus, our data suggest that more than one sst must be involved to down-regulate islet glucagon and insulin secretion.     

The effect of somatostatin and of prolyl-leucyl-glycinamide (MIF) on ACTH release in dispersed pituitary cells.

The hypothalamic releasing and release-inhibiting peptides have multiple effects on more than one pituitary hormone. In this study the action of the two hypothalamic inhibiting factors, somatostatin (GH-IH) and MSH release-inhibiting factor, prolyl-leucyl-glycinamide (MIF), on ACTH release were studied. Increasing concentrations of GH-IH and MIF were added to 1 ml of a suspension of dispersed anterior pituitary cells from male rats. Both GH-IH and MIF (10^?5 to 10^?11 M) were without effect on basal ACTH secretion of normal and of adrenalectomized rats. However, both peptides, within certain concentration ranges, inhibited the ACTH release stimulated by rat hypothalamic extracts or by arginine vasopressin. The most effective concentrations were 35 nM MIF or 6 nM GH-IH. Beyond these concentrations no further suppression was observed. Our results indicate that somatostatin and MIF can inhibit ACTH release, but only in a state of steroid deprivation and within a limited dose range.     

Hypothalamic peptides: central nervous system control of visceral functions

Thyrotropin-releasing factor (TRF), somatostatin, and bombesin-like peptide are present in the brain and may be involved in central nervous system (CNS) control of visceral functions. All three peptides exert potent actions to modify animal thermoregulation. TRF and somatostatin or somatostatin analogs act within the brain to influence parasympathetic and sympathetic outflow resulting in changes of adrenal epinephrine secretion, gastric acid secretion, heart rate, and blood pressure. Bombesin acts within the brain to increase adrenal epinephrine secretion and to inhibit gastric acid secretion without influencing other sympathetic or parasympathetic activities. These peptides and others may be important physiological regulators of CNS information processing related to a variety of visceral systems.     

Gastrin secretion by ovine antral mucosa in vitro

The effect on gastrin and somatostatin release in sheep of stimulatory and inhibitory peptides and pharmacological agents was investigated using an in vitro preparation of ovine antral mucosa. Carbachol stimulated gastrin release in a dose-dependent manner but had no effect on somatostatin release. As atropine blocked the effect of carbachol, cholinergic agonists appear to stimulate gastrin secretion directly through muscarinic receptors on the G-cell and not by inhibition of somatostatin secretion. Both vasoactive-intestinal peptide (VIP) and gastric-inhibitory peptide (GIP) increased somatostatin release but did not inhibit basal gastrin secretion, although VIP was effective in reducing the gastrin response to Gastrin-releasing peptide (GRP). Porcine and human GRP were stimulatory to gastrin secretion in high doses but bombesin was without effect. The relative insensitivity to GRP (not of ovine origin) previously reported from intact sheep may be caused either by a high basal release of somatostatin or by the ovine GRP receptor or peptide differing from those of other mammalian species.     

Somatostatin receptor type 5 modulates somatostatin receptor type 2 regulation of adrenocorticotropin secretion

Somatostatin inhibits adrenocorticotropin (ACTH) secretion from pituitary tumor cells. To assess the contribution of somatostatin receptor subtype 5 (SST5) to somatostatin receptor subtype 2 (SST2) action in these cells, we assessed multipathway responses to novel highly monoreceptor-selective peptide agonists and multireceptor agonists, including octreotide and somatostatin-28. Octreotide and somatostatin-28 cell membrane binding affinities correlated with their respective SST2-selective peptide ligand. Although octreotide had similar inhibiting potency (picomolar) for cAMP accumulation and ACTH secretion as an SST2-selective agonist, somatostatin-28 exhibited a higher potency (femtomolar). Baseline spontaneous calcium oscillations assessed by fluorescent confocal microscopy revealed two distinct effects: SST2 activation reduced oscillations at femtomolar concentrations reflected by high inhibiting potency of averaged normalized oscillation amplitude, whereas SST5 activation induces brief oscillation pauses and increased oscillation amplitude. Octreotide exhibits an integrated effect of both receptors; however, somatostatin-28 exhibited a complex response with two separate inhibitory potencies. SST2 internalization was visualized with SST2-selective agonist at lower concentrations than for octreotide or somatostatin-28, whereas SST5 did not internalize. Using monoreceptor-selective peptide agonists, the results indicate that, in AtT-20 cells, SST5 regulates the dominant SST2 action, attenuating SST2 effects on intracellular calcium oscillation and internalization. This may explain superior somatostatin-28 potency and provides a rationale for somatostatin ligand design to treat ACTH-secreting pituitary tumors.     

Somatostatin and octreotide modulate the function of Kupffer cells in liver cirrhosis

In our previous studies we have shown that somatostatin and octreotide modulate the function of peritoneal macrophages and Kupffer cells in noncirrhotic livers. However, the effects of somatostatin on the Kupffer cells in cirrhotic livers are not known. In the present study, Kupffer cells, obtained from male rats with carbon tetrachloride-induced cirrhotic livers, were treated in vitro with somatostatin or octreotide and their effects on the release of nitric oxide, tumor necrosis factor-alpha (TNF-alpha) and peroxide (H2O2) determined. At concentrations of 10(-13) or 10(-10) to 10(-6) M of somatostatin or 10(-12) to 10(-10) M, or 10(-6) M of octreotide, the amount of nitric oxide released by Kupffer cells was significantly suppressed relative to that of untreated cells. Kupffer cells treated with less than 10(-12) M or greater than 10(-12) M of somatostatin or octreotide released less TNF-alpha compared to the untreated controls. In addition, zymosan-induced H2O2 release by Kupffer cells treated with 10(-9) to 10(-7) M somatostatin or with 10(-15) to 10(-13) M and 10(-9) to 10(-7) M of octreotide was greater than that of the untreated controls. These findings demonstrate that somatostatin and octreotide modulate the release of nitric oxide, TNF-alpha and H2O2 by Kupffer cells in cirrhotic livers depending on the concentrations of hormones used.     

Unexpected growth-stimulatory effect of somatostatin analogue on cultured human pancreatic carcinoid cells.

Therapeutic efficacy of a synthetic somatostatin analogue for the treatment of carcinoid tumors is still controversial. In vivo studies performed in our laboratory showed that a somatostatin analogue, SMS 201-995, significantly inhibited growth of human pancreatic carcinoid (BON) tumors xenotransplanted into athymic nude mice. In the present study, however, SMS 201-995 did not inhibit in vitro growth of BON cells, but rather SMS 201-995 stimulated growth in a dose-dependent fashion. The growth-stimulatory effect was likely mediated through the reduction of cyclic AMP production. Unsuccessful treatment of certain types of carcinoid tumor with SMS 201-995 may be partly due to the direct growth-stimulatory effect of SMS 201-995 on carcinoid cells.     

Difference between the antisecretory mechanisms of opioids and the somatostatin analogue octreotide in cholera toxin-induced small intestinal secretion in the rat

The antisecretory effect of morphine and the somatostatin analogue octreotide was studied on cholera toxin-induced secretion in anaesthetized rats. Small intestinal secretion was induced with cholera toxin. Morphine (6 mg/kg b.wt.) and the somatostatin analogue octreotide (3 μg/kg b.wt.) reduced the cholera secretion in rats whose intestines had been subjected to sympathetic denervation. This was in contrast to the secretion elicited by helodermin which was unaffected by octreotide and morphine in the presence of nicotinic ganglionic blockade.

The -adrenergic receptor blocker phentolamine (1–2 mg/kg b.wt. i.v.) and the inhibitor of sympathetic transmitter release guanethidine (5 mg/kg b.wt. i.v.) abolished the antisecretory effect of morphine on the cholera secretion in contrast to the antisecretory effect of somatostatin which was unaffected by the -blockade. It is proposed that the antisecretory effect of morphine and octreotide on cholera toxin-induced secretion was conducted at a step prior to the activation of the secretory epithelium and that the antisecretory effect of morphine was mediated indirectly by interaction with sympathetic nerve terminals in the intestine. The findings are consistent with a model where octreotide and morphine inhibit the nervous secreto-motor reflex activated by the cholera toxin.     

Effect of calcitonin gene-related peptide on glucose and gastric inhibitory polypeptide-stimulated insulin release from cultured newborn and adult rat islet cells

Calcitonin gene-related peptide (CGRP) is a 37-amino acid peptide that is present in peripheral cells of islets and in nerves around and within islets. CGRP can inhibit insulin secretion in vitro and in vivo. Whether the inhibitory action of CGRP is mediated by somatostatin or by nerve terminals is, however, not known. The objective of this study was to examine the effect of CGRP on insulin secretion, using cultured newborn and adult rat islet cells which did not contain nerve terminals. In adult rat islet cells, CGRP (10(-10) to 10(-8) M) significantly inhibited glucose-stimulated and gastric inhibitory polypeptide (GIP)-potentiated insulin secretion, but in newborn rat islet cells, CGRP did not inhibit glucose-stimulated insulin secretion. Inhibition of glucose-stimulated and GIP-potentiated insulin release was dependent on the glucose concentration during the prestimulation period. CGRP did not stimulate release of somatostatin. These findings suggest that rat CGRP can act directly on beta-cells through a specific receptor that is absent in newborn rat beta-cells.     

Comparison of somatostatin and its highly potent hexa- and octapeptide analogs on exocrine and endocrine pancreatic secretion

The effects on pancreatic responses of highly potent cyclic hexapeptide (cyclo (N-Me-Ala-Phe-D-Trp-Lys-Thr-Phe)) (Veber analog) and octapeptide analogs of somatostatin such as D-Phe-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr-ol (SMS 201-995), D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121), and D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) have been compared with somatostatin tetradecapeptide (SS-14) and atropine. The parameters evaluated were pancreatic responses to secretin and meat feeding in conscious dogs with chronic pancreatic fistula and amylase release from the dispersed pancreatic acini. The analogs were administered intravenously or intraduodenally. The cyclic hexapeptide and octapeptide analogs, given iv in graded doses against a constant background stimulation with secretin, produced similar and dose-dependent inhibition of pancreatic HCO3- and protein secretion. Analogs RC-121, RC-160, and the Veber analog were about two to four times more active than SS-14 in suppressing HCO3- secretion and equipotent in reducing protein secretion, but SMS 201-995 was only about half as potent as somatostatin in inhibiting HCO3-. RC-160 was effective in inhibiting secretin-induced protein secretion at lower doses than other analogs. In tests with feeding, SMS 201-995, the Veber analog, RC-121, and RC-160 were more potent inhibitors of exocrine pancreatic secretion of HCO3- and protein and exhibited more prolonged inhibitory effects than SS-14. The Veber analog, RC-121, and RC-160 were also more effective after intraduodenal administration. Atropine also caused significant inhibition of both HCO3- and protein responses to secretin and meal feeding. All four analogs decreased the postprandial insulin and pancreatic polypeptide release to a similar degree as SS-14. Neither SS-14 nor the analogs tested significantly affected basal or caerulein-, gastrin-, secretin-, or bethanechol-stimulated amylase release from the dispersed canine pancreatic acini. Atropine reduced amylase release induced by bethanechol, but not that stimulated by caerulein, gastrin, or secretin. This indicated that the analogs, as somatostatin, are ineffective as secretory inhibitors in vitro. We conclude that cyclic hexapeptide and octapeptide analogs are more potent and longer acting inhibitors of pancreatic secretion than somatostatin-14 in vivo.     

Postprandial glycaemic effects of a long-acting somatostatin analogue (octreotide) in non-insulin dependent diabetes mellitus

Postprandial changes in blood glucose, insulin and glucagon were examined in 7 non-insulin dependent diabetic patients, before and after 3 days' treatment with the somatostatin analogue, octreotide (50 ug injected subcutaneously thricedaily). After octreotide injection, postprandial rises in plasma insulin and glucagon were significantly flattened. The postprandial glycaemic rise was delayed but the area under the glycaemic curve was not increased. Animal studies have suggested that octreotide inhibits growth hormone and glucagon secretion much more powerfully than native somatostatin, while relatively sparing insulin secretion. However, the present findings suggest that this analogue is not sufficiently selective to be therapeutically useful in non-insulin dependent diabetes.     

111In-DTPA-D-Phe1]-octreotide, a potential radiopharmaceutical for imaging of somatostatin receptor-positive tumors: synthesis, radiolabeling and in vitro validation.

Somatostatin receptor-positive human tumors can be detected using radioiodinated analogues of somatostatin, both in vitro and in vivo. [123I-Tyr3]-octreotide has been successfully used in the visualization of somatostatin receptor-positive tumors by gamma camera scintigraphy, but this radiopharmaceutical has some major drawbacks, which can be overcome with other radionuclides such as 111In. As starting material for a potentially convenient radiopharmaceutical, a diethylenetriaminopentaacetic acid (DTPA) conjugated derivative of octreotide (SMS 201-995) was prepared. This peptide, [DTPA-D-Phe1]-octreotide (SDZ 215-811) binds more than 95% of added 111In in an easy, single-step labeling procedure without necessity of further purification. The specific somatostatin-like biologic effect of these analogues was proven by the inhibition of growth hormone secretion by cultured rat pituitary cells in a dose-dependent fashion by octreotide, [DTPA-D-Phe1]-octreotide and non-radioactive [115In-DTPA-D-Phe1]-octreotide. The binding of [111In-DTPA-D-Phe1]-octreotide to rat brain cortex membranes proved to be displaced similarly by natural somatostatin as well as by octreotide, suggesting specific binding of [111In-DTPA-D-Phe1]-octreotide to somatostatin receptors. The binding of the indium-labeled compound showed a somewhat lower affinity when compared with the iodinated [Tyr3]-octreotide, but indium-labeled [DTPA-D-Phe1]-octreotide still binds with nanomolar affinity. In conjunction with in vivo studies, these results suggest that [111In-DTPA-D-Phe1]-octreotide is a promising radiopharmaceutical for scintigraphic imaging of somatostatin receptor-positive tumors.