Pancreatic somatostatin contents in spontaneously diabetic KK and non-obese diabetic (NOD) mice

Alterations in the somatostatin (SRIF)-, insulin- and glucagon-containing cells were examined in two strains of spontaneously diabetic mice, KK and newly inbred non-obese diabetic (NOD) mice, using radioimmunoassay and immunohistochemical methods. The total pancreatic content and concentration of SRIF was decreased in male KK mice compared to their male controls aged 12-18 weeks. These results were consistent with the immunohistochemical findings. Pancreatic glucagon concentration and number of glucagon-containing cells were also decreased in KK mice, but pancreatic insulin concentrations were increased in KK mice. On the other hand, NOD mice aged 12-38 weeks within 15 days after onset of diabetes had increased concentrations of pancreatic SRIF. The pancreatic islets in NOD mice were decreased both in number and in size and were characterized by lymphocyte infiltration. SRIF-containing cells occupied the major part of the endocrine cells of the islets. Insulin-containing cells significantly decreased in number, but the number of glucagon-containing cells was fairly well preserved. These results and previous work concerning obob and dbdb mice indicate a parallel relationship between pancreatic SRIF and glucagon. The pancreatic glucagon thus as well as the pancreatic insulin may be an important determinant of pancreatic SRIF concentration in these diabetic animals.     

Calbindin D-27 kDa: preferential localization in non-B islet cells of the rat pancreas

The presence and abundance of calbindin in rat pancreatic islet cells was assessed by immunohistochemistry of either whole islets or purified B and non-B islet cells, as well as by Western blotting of extracts derived from whole islets and purified B and non-B islet cells. Immunohistochemistry of pancreatic sections indicated a higher calbindin content in non-B cells, located at the periphery of the islets, than in the centrally located insulin-producing B cells. Comparable results were obtained in purified islet cells. Likewise, scanning densitometry of the Western blots indicated that, relative to cell volume, the single calbindin band (Mr 27 kDa) was 5-7 times higher in non-B than in B cells. In the splenic lobe of chick pancreas, however, the opposite situation prevailed. Thus, insulin-producing cells clustered in small roundish islets were more intensely labelled after exposure to anti-calbindin serum than non-B islet cells located in large and irregularly shaped islets. Nevertheless, even in the chick pancreas, non-B islet cells contained an appreciable amount of calbindin.     

Localization of calcitonin gene-related peptide and islet amyloid polypeptide in the rat and mouse pancreas

Summary It was previously demonstrated that the two chemically related peptides calcitonin gene-related peptide (CGRP) and islet amyloid polypeptide (IAPP) both occur in the pancreas. We have now examined the cellular localization of CGRP and IAPP in the rat and the mouse pancreas. We found, in both the rat and the mouse pancreas, CGRP-immunoreactive nerve fibers throughout the parenchyma, including the islets, with particular association with blood vessels. CGRP-immunoreactive nerve fibers were regularly seen within the islets. In contrast, no IAPP-immunoreactive nerve fibers were demonstrated in this location. Furthermore, in rat islets, CGRP immunoreactivity was demonstrated in peripherally located cells, constituting a major subpopulation of the somatostatin cells. Such cells were lacking in the mouse islets. IAPP-like immunoreactivity was demonstrated in rat and mouse islet insulin cells, and, in the rat, also in a few non-insulin cells in the islet periphery. These cells seemed to be identical with somatostatin/CGRP-immunoreactive elements. In summary, the study shows (1) that CGRP, but not IAPP, is a pancreati neuropeptide both in the mouse and the rat; (2) that a subpopulation of rat somatostatin cells contain CGRP; (3) that mouse islet endocrine cells do not contain CGRP; (4) that insulin cells in both the rat and the mouse contain IAPP; and (5) that in the rat, a non-insulin cell population apparently composed of somatostatin cells stores immunoreactive IAPP. We conclude that CGRP is a pancreatic neuropeptide and IAPP is an islet endocrine peptide in both the rat and the mouse, whereas CGRP is an islet endocrine peptide in the rat.     

Small rat islets are superior to large islets in in vitro function and in transplantation outcomes

Barriers to the use of islet transplantation as a practical treatment for diabetes include the limited number of available donor pancreata. This project was designed to determine whether the size of the islet could influence the success rate of islet transplantations in rats. Islets from adult rats were divided into two groups containing small (diameter <125 microm) or large (diameter >150 microm) islets. An average pancreas yielded three times more small islets than large. Smaller islets were approximately 20% more viable, with large islets containing a scattered pattern of necrotic and apoptotic cells or central core cell death. Small islets in culture consumed twice as much oxygen as large islets when normalized for the same islet equivalents. In static incubation, small islets released three times more insulin under basal conditions than did large islets. During exposure to high glucose conditions, the small islets released four times more insulin than the same islet equivalencies of large islets, and five times more insulin was released by the small islets in response to glucose and depolarization with K+. Most importantly, the small islets were far superior to large islets when transplanted into diabetic animals. When marginal islet equivalencies were used for renal subcapsular transplantation, large islets failed to produce euglycemia in any recipient rats, whereas small islets were successful 80% of the time. The results indicate that small islets are superior to large islets in in vitro testing and for transplantation into the kidney capsule of diabetic rats.     

Insulin, glucagon and somatostatin in fetal rat islets maintained free-floating in culture: immunocytochemistry and radioimmunoassay.

Fetal rat islets maintained free-floating in tissue culture represent a source of B-cells. Because we recently noted the occurrence of other cell types during long-term tissue culture, this in vitro model was used to examine the possible development of non B-cells. The changes in the numbers and percentages of B, A and D-cells in vitro were estimated by counting the hormone-positive cells after immunocytochemical staining. Insulin, glucagon, and somatostatin contents were determined in extracts of the cultured tissue. The experiments described here showed that the cultured islets maintained their viability over a two-week culture period, as evidenced by the increase of both the number of B-cells per islet and the DNA content per islet. During the first few days of culture, immunocytochemically stained free-floating islets indicated the presence of rare A- and D-cells at the periphery of B-cells; thereafter, numerous A- and D-cells were seen interdigitating with B-cells. Expressed per islet, the number of A- and D-cells increased during the culture; within the endocrine cell population, the percentage of these cells increased with time, at the expense of the percentage of B-cells. The glucagon and somatostatin contents of the free-floating islets were also increased. These converging observations suggest that additional non B-cells may have been produced by free-floating islets during long-term tissue culture.     

Effect of the pancreatic digestion with liberase versus collagenase on the yield, function and viability of neonatal rat pancreatic islets

Many obstacles hinder the clinical application of pancreatic islet transplantation as a cure for diabetes mellitus. One of them is the suitable isolation method of sufficient number of healthy islets for transplantation. In this context, liberase enzyme was developed as a purified form of the traditional collagenase. It was the aim of this study to investigate the effect of liberase-digestion on the yield, function and viability of neonatal rat islets, and to compare the new enzyme with the collagenase. Glucose-stimulated insulin secretion was measured as indication of the function, insulin content as indication for the synthetic activity of islet cells and DNA as an indication of cell viability. The results showed no difference between islets isolated either with collagenase or liberase. Glucose stimulated similarly the insulin secretion in both. Stimulation index tended, without significance, to be higher (55%) in liberase-isolated islets compared with the collagenase islets (49%). The viability of both was similar. The insulin synthesis (content) tended also to be better in liberase-isolated islets. It could be concluded that liberase could be non-significantly preferred in the isolation of neonatal rat islets in comparison with collagenase.     

Differences in the expression of heat-shock proteins and antioxidant enzymes between human and rodent pancreatic islets: implications for the pathogenesis of insulin-dependent diabetes mellitus.

BACKGROUND: It has previously been observed that the insulin-producing cells of human pancreatic islets are more resistant to alloxan-, streptozotocin-, nitroprusside-, or cytokine-induced injury than those of mouse and rat islets. MATERIALS AND METHODS: Human pancreatic islets were obtained from heart-beating organ donors. The expression of the stress proteins heat shock protein 70 (hsp70) and heme oxygenase and the anti-apoptosis gene bcl-2 was determined in isolated rat, mouse, and human islets, either cultured in vitro or transplanted under the kidney capsule of nude mice, using immunoblot analysis. Rat and human islet sensitive hydrogen peroxide was assess by glucose oxidation measurements. Isolated islets were also analyzed for their catalase and superoxide dismutase activities, and the islet cell levels of reduced glutathione were determined in response to hydrogen peroxide and nitroprusside. Programmed cell death in human and rat islets in response to streptozotocin was evaluated using TUNEL staining. RESULTS: Cultured human islets expressed higher contents of hsp70 than mouse and rat islets at basal conditions. Also after 4 weeks under the kidney capsule of normoglycemic mice, the hsp70 levels were higher in human islets than in rat islets. The expression of another stress protein, heme oxygenase (HO), was strongly increased in cultured rat islets, but was not affected in human islets. Expression of the bcl-2 gene could not be detected in human islets. In spite of this, 0.5 mM streptozotocin induced apotosis in rat but not in human islet cells. Hydrogen peroxide (0.1 and 0.4 mM) decreased glucose oxidation rates in rat but not in human islets. The levels of reduced glutathione were moderately decreased in human and rat islet cells and sharply decreased in mouse islet cells in response to hydrogen peroxide. Moreover, the activities of catalase and superoxide dismutase (SOD) were markedly lower in mouse islets than in human islets. The activity of catalase was lower in rat islets than in human islets. CONCLUSION: Human islets differ clearly from mouse and rat islets in their increased expression of hsp70, catalase, and SOD, which may explain the increased resistance of human islets to beta cell toxins.     

Effect of thawing rate and post-thaw culture on the cryopreserved fetal rat islets: functional and morphological correlation

The ability of the fetal pancreatic islet cells to multiply rendered them a potential tissue for transplantation studies to cure diabetes. A bank of fetal islets could be created with proper storage in liquid nitrogen. The aim of this study is to evaluate the effect of thawing rate and post-thaw culture on the structural and functional integrity of isolated cryopreserved islets of rat fetuses. Fetal rat islets were isolated by the collagenase digestion, cultured for three days, and then cryopreserved using dimethylsulphoxide as cryoprotectant and the step-rate cooling to -40 degrees C before immersing them in liquid nitrogen. The islets were thawed by the slow or fast warming rates using hyperosmolar sucrose solution and then cultured for 1 or 2 days. Insulin and C-peptide contents of the slow thawed islets were higher than those of the control. In the fast thawed islets the contents were similar to those of the control. Insulin and C-peptide release in response to glucose for the slow thawed islets were lower than those of the control and in the fast thawed islets they were similar to that of the control. Histological examination showed irregular periphery and fragmented central part of the large slowly thawed islets, which showed also variable immunohistochemical reaction to anti-insulin serum, ranging from strongly positive reaction to markedly weak reaction. Fast thawed islets showed mostly regular periphery and their reaction to the anti-insulin serum was slightly weaker than that of the control islets. It was concluded that fast thawing and post-thaw culture is much better than slow thawing, as indicated by nearly normal insulin and C-peptide content and release and intact structural integrity.     

Assessment of human pancreatic islet architecture and composition by laser scanning confocal microscopy.

The recent success of pancreatic islet transplantation has generated considerable enthusiasm. To better understand the quality and characteristics of human islets used for transplantation, we performed detailed analysis of islet architecture and composition using confocal laser scanning microscopy. Human islets from six separate isolations provided by three different islet isolation centers were compared with isolated mouse and non-human primate islets. As expected from histological sections of murine pancreas, in isolated murine islets alpha and delta cells resided at the periphery of the beta-cell core. However, human islets were markedly different in that alpha, beta, and delta cells were dispersed throughout the islet. This pattern of cell distribution was present in all human islet preparations and islets of various sizes and was also seen in histological sections of human pancreas. The architecture of isolated non-human primate islets was very similar to that of human islets. Using an image analysis program, we calculated the volume of alpha, beta, and delta cells. In contrast to murine islets, we found that populations of islet cell types varied considerably in human islets. The results indicate that human islets not only are quite heterogeneous in terms of cell composition but also have a substantially different architecture from widely studied murine islets.     

Somatostatin enhances binding of [3H]estradiol to a cytosolic protein in rat pancreas. Possible role of oligopeptide coligands in secretion

The cytosol fraction of rat pancrease can bind [3H] estradiol specifically and extensively. In contrast to the rat uterus, the binding protein in pancreas requires an accessory factor as a coligand in the steroid-binding reaction. Removal of this accessory factor by passage of the cytosol through CM Affi-Gel blue columns renders eluate fractions virtually incompetent with respect to binding of [3H]estradiol (10 nM). Certain synthetic oligopeptides such as N-benzoyl-L-argininyl-p-nitroanilide, as well as an endogenous accessory factor, can reactivate binding of [3H]estradiol. Thus, localization of the protein that binds [3H]estradiol following chromatography with CM Affi-Gel blue columns can be determined readily by assaying eluate fractions in the absence and presence of either accessory factor or N-benzoyl-L-argininyl-p-nitroanilide. Addition of somatostatin (tetradecapeptide referred to as SRIF14; somatotropin release inhibiting factor) to the activatable, but incompetent, eluate fractions, also enhanced binding of [3H]estradiol. The effect of SRIF14 was biphasic. The threshold concentration required for activation of [3H]estradiol binding was about 1 microM, and maximal stimulation occurred at 25 microM. At higher concentrations of SRIF14, binding declined and reached basal levels at about 75 microM. The concentrations of somatostatin required for activation of binding of [3H]estradiol in vivo may be lower than those indicated above since 1) preparations containing [3H]estradiol-binding protein also contained an SRIF14 peptidase. Following incubation of [125I-Tyr1]SRIF14 with these preparations there was loss of binding of radiolabeled peptide with SRIF14 antiserum. 2) The biphasic nature of SRIF14 activation may reflect feedback inhibition of [3H]estradiol binding by a degradation product of SRIF14. Since SRIF14 has been identified in the delta- (or D-) islet cells of the pancreas, and in concentrations that may be in the microM range, the possibility is raised that these cells serve a paracrine function with respect to acinar cell secretion.     

Interleukin-18 mRNA, but not interleukin-18 receptor mRNA, is constitutively expressed in islet beta-cells and up-regulated by interferon-gamma

Interleukin-18 (IL-18) mRNA is expressed in islets of NOD mice during the early stages of insulitis and IL-18 has therefore been implicated as a contributing factor in immune-mediated beta-cell destruction. However, a recent study failed to show any effect of human IL-18 on the function of isolated rat islets. Since species differences have been shown between human and murine IL-18, the aims of this study were to investigate 1) if species homologous IL-18 alone or following IL-12 pre-exposure affected rat islet function, 2) if IL-18 dose-dependently modulated IL-1 beta or interferon-gamma (IFN-gamma) + tumor necrosis factor-alpha (TNF-alpha) actions on islet function, and 3) if IL-18 and IL-18 receptor (IL-18R) were expressed in rat islet beta-cells. Insulin release and nitric oxide (NO) production from isolated rat islets were measured after incubation with or without cytokines. RT-PCR was used to quantitate mRNA expression of IL-18 and the IL-18R signaling chain (IL-18R beta). There were no significant effects of 0.625-10 nM recombinant murine (rm) IL-18 alone on accumulated or glucose-challenged insulin release or NO production after 24 hours. Fifteen pg/ml of recombinant human (rh) IL-1 beta as well as 200 U/ml recombinant rat (rr) IFN-gamma + 250 U/ml rhTNF-alpha significantly increased islet NO production and inhibited both accumulated and glucose-challenged islet insulin release. However, rmIL-18 failed to modulate these effects of IL-1 beta or IFN-gamma + TNF-alpha. Although IL-12 induces IL-18R expression in Th1 and B lymphocytes, 24-hours rmIL-12 preincubation neither sensitized islets to effects of 10 nM of rm or rrIL-18 alone nor primed the islets to IL-1 beta actions on insulin release and NO production. IL-18R beta mRNA, which was expressed in human peripheral blood mononuclear cells (PBMC), was not expressed in rat insulinoma (RIN) cells or in isolated rat islets, even after exposure to IL-1 beta and/or IFN-gamma + TNF-alpha or IL-12. IL-18 mRNA was constitutively expressed in RIN cells, in FACS-purified rat beta-cells and in intact rat and mouse islets, and was up-regulated by IFN-gamma in an interferon regulatory factor-1- IRF-1) and NO - independent manner. However, IL-18 protein was undetectable in lysates and supernates of RIN cells by ECL, Western blotting and immunoprecipitation. In conclusion, we show for the first time that IL-18 but not IL-18R is expressed in rodent islet beta-cells. The physiological importance and pathological role of IL-18 originating from islet beta-cells deserve further investigation.     

Rat islet cells have glucose-dependent periodic electrical activity

In order to examine whether rat islet cells have a glucose-dependent plateau/silent phase pattern of electrical activity as seen in mouse islets, intracellular recordings were made in cultured whole rat islets. Rat islet cells responded to glucose stimulation with membrane potential alterations between a polarized silent phase and a depolarized plateau phase associated with spikes. Increasing or decreasing glucose stimulation prolonged or shortened the relative duration of plateau phase, respectively. Removal of glucose from the medium caused membrane hyperpolarization with disappearance of electrical activity while reintroduction of glucose caused membrane depolarization and biphasic onset of electrical activity. These results indicate that rat islet cells have a glucose dependent plateau/silent phase electrical mechanism nearly identical to that seen in mouse islets.     

Function and regulation of gastrin in transgenic mice: a review.

The gastrin gene is expressed in fetal pancreatic islet cells, but in the adult is expressed mainly in the gastric antrum. To study the regulation of the gastrin promoter, we created several transgenes containing the human and rat gastrin 5' flanking regions joined to the coding sequences of the human gastrin gene. The human gastrin transgene contained 1,300 bp of 5' flanking DNA, while the rat gastrin transgene contained 450 bp of 5' flanking DNA. The human gastrin transgene was expressed in fetal islets, but was not expressed in adult gastric antrum. In contrast, the rat gastrin transgene was expressed in adult antral G cells, but no expression was observed in fetal islets. To study the possible role of gastrin as an islet growth factor, a chimeric insulin-gastrin (INS-GAS) transgene was created, in which the expression of the human gastrin gene is driven from the rat insulin I promoter. These INS-GAS mice were mated with mice overexpressing TGF alpha, transcribed from a mouse metallothionein-transforming growth factor alpha (MT-TGF alpha) transgene. While overexpression of gastrin or TGF alpha alone had no effect on islet mass, overexpression of both transgenes resulted in a twofold increase in islet mass. In conclusion, these data indicate that (1) gastrin can interact synergistically with TGF alpha to stimulate islet growth; (2) the human gastrin transgene contains the islet specific enhancer; (3) the rat gastrin transgene contains the antral specific enhancer.     

INGAP-related pentadecapeptide: its modulatory effect upon insulin secretion

We examined the effects of a pentadecapeptide having the 104-118 aminoacid sequence of islet neogenesis-associated protein (INGAP-PP) on insulin secretion, and the morphological characteristics of adult and neonatal pancreatic rat islets cultured in RPMI and 10 mM glucose for 4 days, with or without different INGAP-PP concentrations (0.1-100 mug/ml). A scrambled 15 aminoacid peptide was used as control for the specificity of INGAP-PP effect. Cultured neonatal and adult islets released insulin in response to glucose (2.8-16.7 mM) in a dose-dependent manner, and to leucine and arginine (10 mM). In all cases, the response was greater in adult islets. INGAP-PP added to the culture medium significantly enhanced glucose- and aminoacid-induced insulin release in both adult and newborn rats; however, no changes were observed with the scrambled peptide. Similar results were obtained incubating freshly isolated adult rat islets with INGAP-PP. Whereas INGAP-PP did not induce significant changes in islet survival rate or proportion/number of islet cells, it increased significantly beta-cell size. This first demonstration of the enhancing effect of INGAP-PP on the beta-cell secretory response of adult and newborn islets opens a new avenue to study its production mechanism and potential use to increase the secretory capacity of endogenous islets in intact animals or of islets preserved for future transplants.     

Ex vivo gene transfer of viral interleukin-10 to BB rat islets: no protection after transplantation to diabetic BB rats

Allogeneic and autoimmune islet destruction limits the success of islet transplantation in autoimmune diabetic patients. This study was designed to investigate whether ex vivo gene transfer of viral interleukin-10 (vIL-10) protects BioBreeding (BB) rat islets from autoimmune destruction after transplantation into diabetic BB recipients. Islets were transduced with adenoviral constructs (Ad) expressing the enhanced green fluorescent protein (eGFP), alpha-1 antitrypsin (AAT) or vIL-10. Transduction efficiency was demonstrated by eGFP-positive cells and vIL-10 production. Islet function was determined in vitro by measuring insulin content and insulin secretion and in vivo by grafting AdvIL-10-transduced islets into syngeneic streptozotocin (SZ)-diabetic, congenic Lewis (LEW.1 W) rats. Finally, gene-modified BB rat islets were grafted into autoimmune diabetic BB rats. Ad-transduction efficiency of islets increased with virus titre and did not interfere with insulin content and insulin secretion. Ad-transduction did not induce Fas on islet cells. AdvIL-10-transduced LEW.1 W rat islets survived permanently in SZ-diabetic LEW.1 W rats. In diabetic BB rats AdvIL-10-transduced BB rat islets were rapidly destroyed. Prolongation of islet culture prior to transplantation improved the survival of gene-modified islets in BB rats. Several genes including those coding for chemokines and other peptides associated with inflammation were down-regulated in islets after prolonged culture, possibly contributing to improved islet graft function in vivo. Islets transduced ex vivo with vIL-10 are principally able to cure SZ-diabetic rats. Autoimmune islet destruction in diabetic BB rats is not prevented by ex vivo vIL-10 gene transfer to grafted islets. Graft survival in autoimmune diabetic rats may be enhanced by improvements in culture conditions prior to transplantation.     

Neuronal systems immunologically related to the somatostatin system in the garden dormouse

Cells and fibers containing somatostain (SRIF) or SRIF-like peptides were detected immunocytochemically in the brain of the garden dormouse (Eliomys quercinus L.). The periventricular preoptic nucleus and the paraventricular nucleus encompass a component of the SRIF-immunoreactive hypothalamo-infundibular and hypothalamo-neurohypophyseal systems. The suprachiastmatic, ventromedial and arcuate nuclei contain a number of SRIF-positive cells and receive a rich SRIF innervation. The extrahypothalamic systems containing SRIF can be subdivided into the following groups: (1) Afferents, the cellular origin of which is not always clearly evident, i.e., fibers of the septum, the lateral preoptic area, the thalamus, the superior olivary nucleus, the mesencephalic gray matter, and the subfornical organ; (2) dispersed cells with short projections (neocortex, caudate nucleus, putamen); (3) scattered cells with short projections (nucleus accumbens) or innervating remote territories (nucleaus interpeduncularis); (4) vascular organ of the lamina terminalis, a neurohemal area comparable to the median eminence. These observations lead to a theory of a functional bipotentiality of the somatostatin molecule. Immunocytological results depend on the antisera employed, the type of fixation and the experimental conditions. Adrenalectomy is followed by an accumulation of immunoreactive material in all SRIF-containing systems of the brain. These results clearly indicate the SRIF participates in the function of the CRF-ACTH-adrenal axis. The endocrine disturbance induced by adrenalectomy appears to modify the activity of both the neurohormonal and neuromodulator components of the SRIF system.     

Morphological analysis of ghrelin and its receptor distribution in the rat pancreas

Ghrelin, a novel peptide isolated from stomach tissue of rats and humans, has been identified as the endogenous ligand for the growth hormone secretagogue receptor (GHS-R). In addition to its secretion from the stomach, ghrelin is also expressed in the hypothalamic arcuate nucleus, intestine, kidney, placenta, and pancreas. GHS-R mRNA, on the other hand, is expressed in the hypothalamus, pituitary, heart, lung, liver, pancreas, stomach, intestine, and adipose tissue. Ghrelin is considered to have important roles in feeding regulation and energy metabolism as well as in the release of growth hormone (GH). Recent physiological experiments on the pancreas have shown that ghrelin regulates insulin secretion. However, sites of action of ghrelin in the pancreas are yet to be identified. In this study, to gain insight into the role of ghrelin in rat pancreatic islets, we used immunohistochemistry to determine the localization of ghrelin and GHS-R in islet cells. Double fluorescence immunohistochemistry revealed that weak GHS-R-like immunoreactivity was found in B cells containing insulin. GHS-R immunoreactivity overlapped that of glucagon-like immunoreactive cells. Moreover, both ghrelin and GHS-R-like immunoreactivities were detected mostly in the same cells in the periphery of the islets of Langerhans. These observations suggest that ghrelin is synthesized and secreted from A cells, and acts back on A cells in an autocrine and/or paracrine manner. In addition, ghrelin may act on B cells via GHS-R to regulate insulin secretion.