Ultrasound characterization of insulin induced lipohypertrophy in type 1 diabetes mellitus.

OBJECTIVE: Subcutaneous insulin absorption is one of the key factors affecting glycemic control in patients with diabetes mellitus under insulin therapy. Insulin-induced subcutaneous lipohypertrophy has been reported to impair insulin regular absorption and hence glycemic control. So far, lipohypertrophy diagnosis has only been clinical. This study aims at evaluating the possible role of ultrasound scan in the assessment of subcutaneous lipohypertrophy in patients affected by type 1 diabetes mellitus. METHODS: A pilot observational retrospective study was performed in 20 patients affected by type 1 diabetes mellitus. In these patients the areas with clinical evidence of lipohypertrophy dependent on the insulin injections were characterized by the presence of tissues that at the ultrasound scan resulted similar to fibrotic tissues (hyperechogenic) or to an interstitial edema or to fat tissues (hypoechogenic). It was utilized a multi frequency linear probe (6-18 MHz). The patients were advised to avoid insulin injections on the areas with lipohypertrophy scanned by the ultrasound and the HbA1c changes were evaluated 3 months later. RESULTS: The lipohypertrophic areas presented at least three different aspects upon ultrasound assessment: the iso-hyperechogenic one, with a predominant fibrotic component; the isoechogenic one, with "large tangles" fibrotic elements and the iso-hypoechogenic aspect with no fibrotic elements. When patients were advised to avoid insulin injections on areas with lipohypertrophy defined by ultrasound scan, 3 months after the first evaluation HbA1c had significantly improved (basal HbA1c 7.87 ± 0.56 versus 7.67 ± 0.52 3 months later, p = 0.029). No significant improvements of the HbA1c were found in the control matched group in which lipohypertrophy was only clinically valued through inspection and palpation. CONCLUSIONS: Ultrasound scan can help identify and characterize the lipohypertrophic areas and this might be useful to improve glycemic control.

Obtaining accurate and calibrated coil models for transcranial magnetic stimulation using magnetic field measurements.

Currently, simulations of the induced currents in the brain produced by transcranial magnetic stimulation (TMS) are used to elucidate the regions reached by stimuli. However, models commonly found in the literature are too general and neglect imperfections in the windings. Aiming to predict the stimulation sites in patients requires precise modeling of the electric field (E-field), and a proper calibration to adequate to the empirical data of the particular coil employed. Furthermore, most fabricators do not provide precise information about the coil geometries, and even using X-ray images may lead to subjective interpretations. We measured the three components of the vector magnetic field induced by a TMS figure-8 coil with spatial resolutions of up to 1 mm. Starting from a computerized tomography-based coil model, we applied a multivariate optimization algorithm to automatically modify the original model and obtain one that optimally fits the measurements. Differences between models were assessed in a human brain mesh using the finite-elements method showing up to 6% variations in the E-field magnitude. Our calibrated model could increase the precision of the estimated E-field induced in the brain during TMS, enhance the accuracy of delivered stimulation during functional brain mapping, and improve dosimetry for repetitive TMS. Graphical Abstract Geometrical model of TMS coil based on TAC images is optimally deformed to match magnetic field measurements. The calibrated model's induced electric field in the brain differs from the original.

[Argentinean consensus guidelines on the use of monoclonal antibodies in patients with migraine]. / Consenso sobre el uso de anticuerpos monoclonales en la migraña en Argentina.

INTRODUCTION: Migraine is a very prevalent disorder that is estimated to affect about 15% of adult subjects. Recently, the efficacy and safety of monoclonal antibodies that act on the calcitonin gene-related peptide pathway (MA-CGRP) has been evaluated in migraine. Several groups around the world have developed consensus guidelines about the use of monoclonal antibodies, however, in some regions is difficult to extrapolate the recommendations. AIM: To provide recommendations for the use of MA-CGRP in migraine in Argentina. DEVELOPMENT: A group of neurology experts from Argentina, by using the online surveys methodology as well as face to face meetings developed the intended consensus for the use of MA-CGRP in migraine in Argentina. Recommendations were established based on published evidence and the expert opinion. Recommendations focused on how, when, treatment duration and patients follow up. CONCLUSION: The recommendations of this consensus guidelines attempt to optimize the use of MA-CGRP in migraine in Argentina.

TITLE: Consenso sobre el uso de anticuerpos monoclonales en la migraña en Argentina.Introducción. La migraña es un trastorno muy prevalente que se estima que afecta a alrededor del 15% de los sujetos adultos. Durante los últimos años, se ha evaluado la eficacia y la seguridad de los anticuerpos monoclonales que actúan sobre la vía del péptido relacionado con el gen de la calcitonina (AM-PRGC) en la migraña. Diversos grupos de trabajo internacionales han intentado clarificar y normatizar el uso de estos medicamentos en la migraña. Sin embargo, en muchas ocasiones se extrapolan datos de otras regiones que no contemplan la realidad de cada lugar o son difíciles de implementar. Objetivo. Proveer recomendaciones sobre el uso de AM-PRGC en pacientes con migraña en Argentina. Desarrollo. Un grupo de expertos de Argentina conformado por neurólogos, mediante metodología de ronda de encuestas en la distancia y reuniones presenciales, llevó adelante la elaboración del consenso pretendido para el uso de AM-PRGC en pacientes con migraña en Argentina. Se establecieron las recomendaciones basadas en la evidencia publicada y en el criterio de los expertos que participaron. Las recomendaciones se enfocaron en el momento de usar los AM-PRGC en la migraña tanto crónica como episódica, la duración, los cuidados y el entorno para hacerlo. Conclusión. Las recomendaciones establecidas en el presente consenso permitirán optimizar el manejo de los AM-PRGC en pacientes con migraña en Argentina.

Islet transplantation in Italy.

Two centers have now an active islet transplant program in Italy, both placed in Milan: the San Raffaele Scientific Institute and the Niguarda Hospital. Up to 2018 in Italy about 200 patients affected by type 1 diabetes mellitus received an islet allotransplantation and about 100 patients received an islet auto-transplantation after a partial or total pancreatectomy. In spite of this large volume of activities, there is not a specific reimbursement fee for islet isolation and current reimbursement based on the Diagnosis-related group covers only partially the hospitalization and the islet transplantation costs.

Intramuscular islet allotransplantation in type 1 diabetes mellitus.

OBJECTIVE: Alternative sites to the liver for islet transplantation have been studied for a long time. Intramuscular islet transplantation appears to be an alternative site to the liver because of the ease of access. First islet autotransplantations were reported in patients after total pancreatectomies. The transplanted islets showed a proper revascularization and their function was observed for up to 2 years after the implant. However, only a few cases of autotransplantation and no allotransplantation have been performed. The aim of this study was to verify the feasibility of islet allotransplantation into muscles. PATIENTS AND METHODS: In four patients affected by type 1 diabetes mellitus in which liver islet allotransplantation was contraindicated, human islets were transplanted into patients' arm muscle with local anesthesia. RESULTS: The surgery was minimally invasive, without complications. In one patient a moderate local inflammatory reaction was observed at the site of the implant, which resolved spontaneously within 4 days. Islet graft function was observed after transplantation in all patients, but it progressively disappeared in 3 out 4 patients within a short time. CONCLUSIONS: In this first ever-reported intramuscular pancreatic islet allotransplantation, the procedure appears feasible but new strategies must be envisaged to significantly improve islet engraftment and the long-term graft function.

Missense mutations in the TGM2 gene encoding transglutaminase 2 are found in patients with early-onset type 2 diabetes. Mutation in brief no. 982. Online.

Transglutaminase 2 (TG2 or TGM2) is a multi-functional enzyme which catalyzes transamidation reactions or acts as a G-protein in intracellular signalling. Tgm2-/- Mice lacking TG2 activity are glucose intolerant and show impairment of insulin secretion, suggesting an important physiological role for TG2 in the pancreatic beta cell. We have previously described a TGM2 heterozygous missense mutation ((c.998A>G, p.N333S) in a 14 year-old patient with insulin-treated diabetes and in his diabetic father. The aim of this study was to further investigate the role of TG2 in early-onset type 2 diabetes. We analysed the TGM2 gene in 205 patients with clinically defined Maturity Onset Diabetes of the Young (MODY) or early-onset type 2 diabetes. We found two novel heterozygous mutations (c.989T>G, p.M330R; c.992T>A, p.I331N), which were not detected in 300 normoglycemic controls. All mutations were in residues which are located close to the catalytic site and impaired transamidating activity in vitro. Gene expression of TGM family genes and localization of TG2 in normal human pancreas indicated that TG2 is the only transglutaminase significantly expressed in human pancreatic islet cells. We conclude that reduced TG2 activity can contribute to disorders of glucose metabolism possibly via an impairment of insulin secretion.

Impaired beta-cell functions induced by chronic exposure of cultured human pancreatic islets to high glucose.

In type 2 diabetes, chronic hyperglycemia has been suggested to be detrimental to beta-cell function, causing reduced glucose-stimulated insulin secretion and disproportionately elevated proinsulin. In the present study, we investigated the effect on several beta-cell functions of prolonged in vitro exposure of human pancreatic islet cultures to high glucose concentrations. Islets exposed to high glucose levels (33 mmol/l) for 4 and 9 days showed dramatic decreases in glucose-induced insulin release and in islet insulin content, with increased proportion of proinsulin-like peptides relative to insulin. The depletion in insulin stores correlated with the reduction in insulin mRNA levels and human insulin promoter transcriptional activity. We also demonstrated that high glucose dramatically lowered the binding activity of pancreatic duodenal homeobox 1 (the glucose-sensitive transcription factor), whereas the transcription factor rat insulin promoter element 3b1 activator was less influenced and insulin enhancer factor 1 remained unaffected. Most of these beta-cell impairments were partially reversible when islets first incubated for 6 days in high glucose were transferred to normal glucose (5.5 mmol/l) concentrations for 3 days. We conclude that cultured human islets are sensitive to the deleterious effect of high glucose concentrations at multiple functional levels, and that such mechanisms may play an important role in the decreased insulin production and secretion of type 2 diabetic patients.

Autoantibody response to islet transplantation in type 1 diabetes.

Islet allotransplantation into patients with autoimmune type 1 diabetes represents a reexposure to autoantigen. Here, measurement of antibodies to GAD and IA-2 autoantigens before and after islet transplantation in 36 patients (33 receiving islet plus kidney grafts with cyclosporin and steroid-based immunosuppression, and 3 receiving solitary islet transplants with mycophenolate but cyclosporin-free immunosuppression) demonstrated marked rises in GAD antibodies within 7 days posttransplantation in 5 patients (3 receiving islet after kidney transplants, and 2 receiving solitary islet transplants) and within 30 days in the third patient receiving solitary islet transplantation. GAD antibodies were of the IgG1 subclass, against major autoantigenic epitopes, and in cases of islet after kidney transplants, the responses were short-lived and not accompanied by HLA antibodies. Two of these patients had subsequent marked rises of IA-2 antibodies, and an additional patient had a marked rise in IgM-GAD antibodies 3 years after transplantation. Insulin independence was not achieved in patients with autoantibody elevations and was significantly less frequent in these patients. These data are consistent with a reactivation of autoimmunity that may be dependent on immunosuppression therapy and is associated with impaired graft function.

Mechanisms of coordination of Ca2+ signals in pancreatic islet cells.

Within pancreatic islet cells, rhythmic changes in the cytosolic Ca2+ concentration have been reported to occur in response to stimulatory glucose concentrations and to be synchronous with pulsatile release of insulin. We explored the possible mechanisms responsible for Ca2+ signal propagation within islet cells, with particular regard to gap junction communication, the pathway widely credited with being responsible for coordination of the secretory activity. Using fura-2 imaging, we found that multiple mechanisms control Ca2+ signaling in pancreatic islet cells. Gap junction blockade by 18 alpha-glycyrrhetinic acid greatly restricted the propagation of Ca2+ waves induced by mechanical stimulation of cells but affected neither Ca2+ signals nor insulin secretion elicited by glucose elevation. The source of Ca2+ elevation was also different under the two experimental conditions, the first being sustained by release from inner stores and the second by nifedipine-sensitive Ca2+ influx. Furthermore, glucose-induced Ca2+ waves were able to propagate across cell-free clefts, indicating that diffusible factors can control Ca2+ signal coordination. Our results provide evidence that multiple mechanisms of Ca2+ signaling operate in beta-cells and that gap junctions are not required for intercellular Ca2+ wave propagation or insulin secretion in response to glucose.

High glucose causes apoptosis in cultured human pancreatic islets of Langerhans: a potential role for regulation of specific Bcl family genes toward an apoptotic cell death program.

Type 2 diabetes is characterized by insulin resistance and inadequate insulin secretion. In the advanced stages of the disease, beta-cell dysfunction worsens and insulin therapy may be necessary to achieve satisfactory metabolic control. Studies in autopsies found decreased beta-cell mass in pancreas of people with type 2 diabetes. Apoptosis, a constitutive program of cell death modulated by the Bcl family genes, has been implicated in loss of beta-cells in animal models of type 2 diabetes. In this study, we compared the effect of 5 days' culture in high glucose concentration (16.7 mmol/l) versus normal glucose levels (5.5 mmol/l) or hyperosmolar control (mannitol 11 mmol/l plus glucose 5 mmol/l) on the survival of human pancreatic islets. Apoptosis, analyzed by flow cytometry and electron and immunofluorescence microscopy, was increased in islets cultured in high glucose (HG5) as compared with normal glucose (NG5) or hyperosmolar control (NG5+MAN5). We also analyzed by reverse transcriptase-polymerase chain reaction and Western blotting the expression of the Bcl family genes in human islets cultured in normal glucose or high glucose. The antiapoptotic gene Bcl-2 was unaffected by glucose change, whereas Bcl-xl was reduced upon treatment with HG5. On the other hand, proapoptotic genes Bad, Bid, and Bik were overexpressed in the islets maintained in HG5. To define the pancreatic localization of Bcl proteins, we performed confocal immunofluorescence analysis on human pancreas. Bad and Bid were specifically expressed in beta-cells, and Bid was also expressed, although at low levels, in the exocrine pancreas. Bik and Bcl-xl were expressed in other endocrine islet cells as well as in the exocrine pancreas. These data suggest that in human islets, high glucose may modulate the balance of proapoptotic and antiapoptotic Bcl proteins toward apoptosis, thus favoring beta-cell death.

Abnormal sensitivity to glucose of human islets cultured in a high glucose medium: partial reversibility after an additional culture in a normal glucose medium.

In the experimental animal chronic hyperglycemia alters the islet's sensitivity to glucose. In the present study the glucose sensitivity of human pancreatic islets, isolated and purified, obtained from seven human pancreases using an automated method was evaluated. After a 12-h stabilization period, islets were cultured for 48 h in normal (5.5 mmol/L) or high glucose (16.7 mmol/L) medium. Islets were then perifused to study their insulin response to glucose. Islets cultured in the high glucose medium lost glucose-induced insulin release and, when challenged with an acute fall of glucose concentration in the perifusate, showed a paradoxical insulin release. Insulin release in response to 10 mmol/L L-arginine was preserved in these islets, suggesting a selective reduction of the insulin response to glucose. An additional 48-h culture in 5.5 mmol/L glucose medium partially restored the sensitivity to glucose of the previously unresponsive islets. These findings indicate that short term exposure to high glucose concentrations induces a selective glucose insensitivity of human islets, which can be partially reversed by an additional culture in normal glucose medium.

Human islets chronically exposed in vitro to different stimuli become unresponsive to the same stimuli given acutely: evidence supporting specific desensitization rather than beta-cell exhaustion.

The aim of this study was to evaluate the effects of long term in vitro exposure of human pancreatic islets to different secretagogues on their subsequent secretory activity. Therefore, groups of 100 islets were cultured for 48 h in standard tissue culture medium (CMRL 1066) in the presence of 1 of the following: 5.5 mmol/L glucose, 16.7 mmol/L glucose, 5.5 mmol/L glucose plus 10 mmol/L L-arginine, or 5.5 mmol/L glucose plus 100 mumol/L tolbutamide. Insulin levels in the culture medium declined with time under all culture conditions. Islets were then perifused and acutely stimulated with glucose (16.7 mmol/L), L-arginine (10 mmol/L), and tolbutamide (100 mumol/L). Islets cultured in 16.7 mmol/L glucose showed no response to 16.7 mmol/L glucose [net area under the curve (delta AUC), 11% of control], and a reduced response to acute tolbutamide (delta AUC, 35% of control), but responded to L-arginine (delta AUC, 75% of control). Islets cultured in the presence of 10 mmol/L L-arginine had reduced responses to glucose (delta AUC, 11% of control) and tolbutamide (delta AUC, 27% of control), but responded to L-arginine (delta AUC, 75% of control). Islets cultured in tolbutamide did not respond to tolbutamide (delta AUC, 14% of control) and showed a reduced responses to acute glucose (delta AUC, 36% of control) and L-arginine (delta AUC, 24% of control). In a second set of experiments, islets cultured in 5.5 or 16.7 mmol/L glucose showed an insulin response to a supramaximal glucose stimulation (30 mmol/L glucose plus 0.5 mmol/L isobutylmethylxanthine) that was not statistically different. Similarly, islets that were cultured in the presence of 100 mumol/L tolbutamide still responded to 1 mmol/L tolbutamide. In conclusion, all stimuli evaluated in this study, chronically applied, reduced the insulin response to further acute stimulations. The different patterns of unresponsiveness observed together with the finding of a preserved insulin content in the islets after perifusions and a maintained capability to release insulin in response to supramaximal stimulations suggest that after chronic exposure to different stimuli, human islets become selectively desensitized to the same stimuli given acutely and do not become exhausted.

Insights from a successful case of intrahepatic islet transplantation into a type 1 diabetic patient.

We report a case of long-term (>4 yr) successful intrahepatic islet transplantation into a type 1 diabetic patient chronically immunosuppressed for a prior kidney graft. The exogenous insulin requirement decreased progressively after transplantation, and insulin treatment was withdrawn at 6 months. Glycosylated hemoglobin levels were in the normal range at 1 and 2 yr (5.3%) and increased slightly above the upper normal limit at 3 and 4 yr (6.3% and 6.4%). Fasting C peptide levels remained stable during the entire follow-up, but the proinsulin to insulin ratios increased dramatically at yr 3. Glycemic levels after an oral glucose tolerance test showed a diabetic profile at 1 yr, a normal profile at 2 yr, and an impaired glucose tolerance profile at 3 yr. Intravenous glucose tolerance test-induced first phase insulin release, present at 1 and 2 yr, disappeared at 3 yr. Diabetes-related autoantibodies (islet cell antibodies, glutamic acid decarboxylase antibodies, and tyrosine phosphatase-like protein antibodies) were undetectable before transplantation and remained so during the entire follow-up. The patient died of myocardial infarction 50 months after transplantation while she was still in good metabolic control (glycosylated hemoglobin, <6.8%) in the absence of exogenous insulin administration. The autoptic liver showed well granulated islets, richly vascularized and without evidence of lympho-mononuclear cell infiltration. The morphometrically extrapolated intrahepatic beta-cell mass was 99.9 mg. In conclusion, this successful islet graft showed a bell-shaped clinical effect, maximal at 2 yr after transplantation, followed by a slow progressive decline. The absence of allo- and autoreactivities against the transplanted islets points to a nonimmune-mediated beta-cell loss as the cause of graft functional deterioration.

Intercellular Ca2+ waves sustain coordinate insulin secretion in pig islets of Langerhans.

Insulin release was investigated in parallel with changes in cytosolic calcium concentration, [Ca2+]i, in pig islets stimulated by glucose. After two days in culture, glucose stimulation failed to induce insulin release, and caused limited [Ca2+]i changes in few cells. After ten days, insulin response was partially restored and [Ca2+]i recordings revealed a slow oscillatory activity of the whole islet. Slow oscillations appeared to be due to the average [Ca2+]i variations resulting from the spreading of waves throughout the islet. These waves demonstrate the reestablishment of functional cell coupling, which appears to play a critical role in insulin release.

Effects of cryopreservation on in vitro and in vivo long-term function of human islets.

BACKGROUND: The possibility of performing transplantation several days after explant seems to be a peculiarity of islet grafts, and the opportunity to cryopreserve human islets may permit an indefinite period for modulating the recipient immune system. The aim of the present study was the evaluation of in vitro and in vivo functional properties of cryopreserved human islets. METHODS: We used six consecutive human islet preparations not suitable for an immediate transplantation in diabetic patients because the limited islet mass separated. The in vitro function of cryo and fresh islets was studied by determination of insulin and glucagon secretion in response to such classical stimuli as glucose (16.7 mM), glucose (16.7 mM) + 3-isobutyl-1-methylxanthine (0.1 mM), arginine (10 mM), and tolbutamide (100 microM). In vivo islet function was assessed through intravenous glucose tolerance tests performed at 15, 30, 60, and 90 days after transplantation of 1000 hand-picked fresh or cryopreserved islets in nude mice. RESULTS: Basal secretion of true insulin was significantly higher in cryopreserved islets than in fresh ones. The response of cryopreserved islets to arginine and glucose + isobutyl-1-methylxanthine seemed partially impaired. Proinsulin-like molecule secretion seemed higher in cryopreserved than in fresh islets in response to all secretagogues used, and the difference was statistically significant for arginine. The capacity of human cryopreserved islets to maintain a correct metabolic control in diabetic nude mice was progressively lost in 3 months. CONCLUSIONS: These findings showed that cryopreservation affects the function of isolated human islets, maintaining in vivo function for a limited period of time.

Insulin and intracellular calcium responsiveness to glucagon-like peptide-1 and pituitary adenylate cyclase-activating peptide by dispersed adult porcine islet cells.

BACKGROUND: There is a great need to learn more about porcine islet physiology because porcine islets represent a promising source of xenogeneic tissue for beta-cell replacement therapy in humans. METHODS: We evaluated the effects of two important physiological regulators of insulin secretion, glucagon-like peptide-1 (GLP-1) and pituitary adenylate cyclase-activating peptide (PACAP), on insulin release and intracellular calcium ([Ca++]i) by adult porcine islet cells. RESULTS: Exposure to GLP-1 and PACAP significantly potentiated glucose-induced insulin release and improved the sensitivity to glucose as a secretagogue. About 70% of cells stimulated with 20 mmol/L glucose alone showed an increase in [Ca++]i, whereas the addition of GLP-1 and PACAP induced [Ca++]i increases in 86% and 93% of cells, respectively. CONCLUSIONS: The good insulin and [Ca++]i responsiveness of porcine islet cells to both GLP-1 and PACAP provides an additional proof of their suitability for transplantation.

Paradoxical release of insulin by adult pig islets in vitro. Recovery after culture in a defined tissue culture medium.

In this study, in vitro responsiveness to glucose of fresh and cultured islets from adult pigs was tested under both static (incubation) and dynamic (perifusion) conditions. Islets were isolated by an automated method from pancreases of 24-month-old animals and cultured overnight in CMRL 1066 and 10% FCS plus antibiotics; islets, perifused immediately after the overnight culture, showed a paradoxical decrease in insulin release when exposed to an acute glucose stimulus (16.7 mmol/L), and a normal response to acute glucose when isobutylmethylxanthine (IBMX) was added to the perifusing buffer. In addition, an acute reduction of glucose concentration in the perifusate elicited a paradoxical insulin release. At the microscope, islets appeared loose and irregularly shaped after the overnight culture; immunohistochemistry showed loss of peripheral A and other mantle cells. After the overnight culture, islets were divided into 5 groups and were cultured for a further 48 hr in different tissue culture media: CMRL 1066; RPMI 1640 (without glucose); RPMI 1640 (plus 11.1 mmol/L glucose); Ham's F12; and medium 199 (all media were supplemented with 10% FCS and antibiotics). During this period, insulin release was 11.4 +/- 1.1 pg/islet/min in islets cultured in CMRL 1066, 16.2 +/- 2.4 in islets cultured in RPMI 1640 (11.1 mmol/L glucose), 1.8 +/- 0.2 (P < 0.001 vs. all the other groups), and 9.0 +/- 0.6 and 8.4 +/- 0.9 pg/islet/min in islets cultured in RPMI 1640 (without glucose), Ham's F12, and medium 199, respectively. After the 48-hr culture in different media, the islets' responsiveness to an acute glucose stimulus (16.7 mmol/L; static incubation) was evaluated: islets cultured in CMRL 1066 and in RPMI 1640 (with and without glucose) showed no insulin response to the acute glucose stimulus; in contrast, insulin release rose from 0.42 +/- 0.06 to 0.60 +/- 0.12 pg/islet/min (NS) in islets cultured in Ham's F12, and from 0.24 +/- 0.06 to 0.48 +/- 0.06 pg/islet/min (P < 0.001) in islets cultured in medium 199. During perifusions, the paradoxical insulin release in response to an acute fall in glucose concentration disappeared, but a significant increase in response to high (16.7 mmol/L) glucose was observed only in islets previously cultured in medium 199. To assess the possible role of glucagon and of cAMP, additional perifusions were done in islets cultured for 48 hr in CMRL 1066 in the presence of glucagon (10 mumol/L) and IBMX (10 mumol/L); glucagon and IBMX were unable to modify the insulin response to 16.7 mmol/L glucose.(ABSTRACT TRUNCATED AT 400 WORDS)

Insulin and glucagon release of human islets in vitro: effects of chronic exposure to glucagon.

Hyperglucagonemia is commonly found in insulin-dependent as well as in non-insulin-dependent diabetes mellitus, and is likely to be caused by absolute or relative insulin deficiency. The aim of the present study was to evaluate whether a chronic glucagon exposure (1.0 microM for 4 h) modifies the insulin response to acute stimuli with glucagon (1.0 microM), arginine (10.0 mM) and glucose (16.7 mM), or the glucagon response to arginine and glucose, in human islets. Chronic exposure to glucagon did not affect the insulin response to glucose and arginine, but inhibited its response to glucagon (44.6 +/- 9.3 vs 168.6 +/- 52.3 pg/islet per 20 min, P < 0.05); the latter effect was not observed when exposure to glucagon was discontinuous (2.0 microM glucagon alternated with control medium for 30 min periods). The chronic exposure to glucagon also reduced the glucagon response to arginine (- 4.9 +/- 5.7 vs 19.9 +/- 7.9 pg/islet per 20 min, P < 0.05) without affecting the inhibition of glucagon release exerted by glucose. These data indicate that chronic exposure to glucagon desensitizes pancreatic alpha and beta cells in response to selected stimuli.

Long-term in vitro exposure to high glucose increases proinsulin-like-molecules release by isolated human islets.

The aim of this study was to determine the effect of long-term in vitro exposure to high glucose on the release and content of proinsulin and insulin in human islets. After 48 h culture in CMRL medium at 5.5 mM (control islets) and 16.7 mM glucose (experimental islets), islets were perifused and acutely stimulated with 16.7 mM glucose, followed by 3.3 mM glucose. Compared with control islets, experimental islets showed a higher basal release of true insulin and proinsulin-like-molecules (PLM), with no increase of true insulin and PLM release in response to 16.7 mM glucose, and a paradoxical true insulin release in response to 3.3 mM glucose; the PLM/total insulin ratio increased significantly after 16.7 mM glucose. Moreover these islets showed a decreased true insulin content and an increased PLM/total insulin ratio. Quantitative ultrastructural analysis of granules, supported by double gold immunostaining with monoclonal antibodies against proinsulin and insulin, showed an increased proinsulin to insulin ratio in beta-cells from experimental islets. These data support in vitro what was recently shown in vivo, and further confirm that culture in high glucose is a useful tool to mimic the effect of in vivo chronic hyperglycemia on human beta-cell function.

Glucagon improves insulin secretion from pig islets in vitro.

It has been shown that peripheral glucagon secreting cells (A-cells) are lost during most of the isolation procedures employed for pig islets. Loss of A-cells decreases intra-islet glucagon levels and cAMP levels in B-cells and might reduce glucose-induced insulin release. This study was designed to test this hypothesis, by evaluating the effects of culture of porcine islets with exogenous glucagon on insulin secretion and on insulin and cAMP content in islets. Islets were isolated from adult 2-year old Large White pigs using an automated method. The number of A-cells was calculated by immunostaining for glucagon in islets before and after isolation and a significant decrease in A-cells was observed. After an overnight culture, islets were cultured for 48 h in a standard medium (CMRL 1066, 10% foetal calf serum, 1% antibiotics, 1% glutamine) alone or in the presence of glucagon at two different concentrations (1.0 and 10.0 microM); exposure to glucagon was either continuous or alternated with periods of incubation in CMRL 1066 alone. After the 48-h culture in standard medium, the islet glucagon response to arginine was almost negligible and significantly lower than that observed in human islets.(ABSTRACT TRUNCATED AT 250 WORDS)