Effect of 2-deoxy-d-glucose on maintenance in culture of neonatal B cell of rat

Summary The effect of 2-deoxy-d-glucose on maintenance in culture of B cells of the neonatal rat was examined by supplementation of Medium 199 containing 5.5 mM glucose with 1 mM 2-deoxy-d-glucose. Islets maintained in medium with 5.5 mM glucose (basal medium) for 7 d underwent remarkable decreases in glucose sensitivity, and the levels of insulin in the medium dropped. By contrast, addition of 2-deoxy-d-glucose promoted a higher insulin content in medium and an increase in the glucose-induced insulin release and biosynthesis. Moreover, the addition of the deoxysugar caused a selective deletion of fibroblasts and prevented the deterioration of islet cells in basal medium, yielding clusters mostly consisting of islet cells at the end of culture.     

The effect of 2-deoxy-D-glucose on insulin release by neonatal rat B cells in culture

The culture for 7 days in medium with 5.5 mM glucose and 1 mM 2-deoxy-D-glucose enhanced the glucose sensitivity of neonatal rat B cells, and even stimulated their growth in vitro. Also, 2-deoxy-D-glucose supplementation maintained insulin release evoked by leucine and 2-ketoisocaproate from B cells at day 7 at levels several times higher than at day 1. The effect of leucine was greatly augmented by glutamine, whereas that of the 2-keto acid remained almost unchanged irrespective of the presence of glutamine. These results suggest an increase in oxidative catabolism of medium nutrients in B cells grown in medium with 2-deoxy-D-glucose for 7 days, and such metabolic changes may promote the growth of B cells in vitro.     

Maintenance of neonatal endocrine cells of the rat. I. Effects of 2-deoxyglucose and 2-deoxy-2-fluoroglucose

Pancreatic endocrine cells of the neonatal rat cultured in medium with 5.5 mM glucose for 7 days showed no response to glucose. By contrast, the supplementation of the medium with 1.0 mM 2-deoxyglucose or with 0.1-5.0 mM 2-deoxy-2-fluoroglucose maintained the capacity of glucose-induced insulin release and biosynthesis, and the recovery of insulin in cells at day 7 at levels significantly higher than in basal medium; the highest responses were recorded for 1.0 mM deoxysugars. Moreover, the addition of 1.0 mM deoxysugars caused a selective deletion of fibroblasts and yielded monolayers mostly consisted of endocrine cells at the end of the culture study period. In these monolayer cells, the stimulating level of c-AMP release was significantly higher than the basal. On the other hand, the in vitro function of A cells in culture was also better preserved in media with 1.0 mM deoxysugars.     

Development and function of B cells in monolayer islet cells of 3-week-old rat

Monolayer cultures of pancreatic B cells of 3-week-old rats were kept for 7 days in medium with 5.5 mM glucose plus 1 mM 2-deoxy-2-fluoroglucose or for 4 days in medium with 5.5 mM glucose alone, following exposure for 3 days to a medium with 5.5 mM glucose plus 5 microM iodoacetic acid. Addition of the deoxyglucose or iodoacetic acid caused a selective deletion of fibroblasts, yielding large clusters that consisted mostly of islet cells. At the early stage of culture in medium with 16.7 mM glucose (day 4), the response of B cells to 16.7 mM glucose included only a small rise in insulin secreted during the first and second phases, and that to 10 mM of leucine and 2-ketoisocaproate was monophasic. After culturing for 7 days, these three secretagogues markedly stimulated insulin secretion by B cells cultured in both media, with a significant rise in secondary phase secretion. However, quantitative relationships differed. Thus, the response (total insulin secreted during a 30-min stimulation) of B cells in 2-deoxy-2-fluoroglucose to glucose was 155%, to leucine 185% and 2-ketoisocaproate 126% of that of cells exposed to iodoacetic acid. In conclusion, the present results suggest that B cells of 3-week-old rat may be immature, and that medium containing 2-deoxy-2-fluoroglucose is beneficial to continued maturation of the response in vitro.     

Effects of synthetic cholecystokinin analog on hormone secretion in fetal human pancreatic tissue culture]

We have investigated the effects of Pro-Met-Asp-Phe-NH2 (PMAP) on insulin and glucagon release from human fetal pancreatic microfragments in vitro. Four batches of precultured microfragments were incubated for 24 hrs in medium containing 5.5 mM glucose, 17 mM glucose, 1 microM PMAP or 1 microM PMAP plus 17 mM glucose. PMAP significantly enhanced both basal and glucose-stimulated insulin release (2.2- and 4.1-fold, respectively). Glucagon secretion was markedly inhibited by glucose (17 mM). PMAP neither affected the basal glucagon release nor potentiated the inhibitory action of glucose on glucagon release. Hence, PMAR selectively regulates insulin production in human fetal islet tissue without affecting glucagon production. Our results suggest that the substances similar or related to PMAP may prove to be of clinical value in drug correction of diabetes mellitus.     

Maintenance of pancreatic endocrine cells of the neonatal rat: IV. The effect of 3-amino-3-deoxyglucose

Monolayer islet cells prepared from neonatal rat pancreases were cultured in media with 5.5 mM glucose alone or further supplemented with 5 mM 3-amino-3-deoxyglucose (3A3dG) for a total of 7 days. After culture for 7 days, 3A3dG-supplementation maintained the recovery of insulin released into the medium during the last 2 days of a 7-day culture at a level 2.9 fold higher that at day 0. Similarly, the insulin content of the cells was significantly higher than the initial level at day 0 (2.8-fold) and that of the cells grown in medium with glucose alone (4.5-fold). The maximum secretory responses to glucose (2.8-16.7 mM), leucine (2.5-10 mM) and 2-ketoisocaproate (2.5-10 mM) were several times as high as the initial. Further, 3A3dG caused a selective deletion of fibroblasts mostly consisting of endocrine cells. In these monolayer cells, either the cAMP response to glucose or the cellular cAMP content were significant. In conclusion, it is suggested that the beneficial effect of 3A3dG may be associated with an increase in either the oxidative catabolism of amino acids or the activity of adenylate cyclase in the B cell.     

Insulin release from BK virus-induced and in vitro maintained insulinoma cells of Syrian golden hamster

The pancreatic tumor cells (In 111) derived from BK virus-induced insulinoma of Syrian golden hamsters were maintained in culture for several passages and were studied for their insulin secretory ability under various stimulatory conditions. Insulin release was not increased by D-glucose stimulation (27.8 mM), while dibutyryl cyclic AMP (1 mM), theophylline (1 mM), 3-isobutyl-l-methylxanthine (0.1 mM) and elevation of medium calcium from 0.5 to 2.7 mM stimulated insulin release 2.5- to 4-fold. There was a concomitant increase of medium cyclic AMP with addition of theophylline. Streptozotocin (2 mM) treatment for 48 hours significantly reduced insulin release, while alloxan (2 mM), had no inhibitory effect on insulin release. The results indicate that while in vitro-maintained islet tumor cells, In 111, have a cyclic AMP-mediated process involved in insulin secretion analogous to normal beta cells, these cells lack the ability to recognize glucose as an insulin secretagogue probably due to a defect in the cell membrane, though the possibility of alteration in glucose metabolism cannot be fully excluded.     

Peripheral insulin insensitivity in the hyperglycemic athymic nude mouse: similarity to noninsulin-dependent diabetes mellitus

Previous studies in the homozygous athymic nude mouse (USC colony) have indicated a diabetic state characterized by spontaneous hyperglycemia, abnormal glucose tolerance, and normal or relatively decreased plasma insulin levels. Pancreatic islet cell population assessed by morphometric and immunohistochemical studies demonstrated normal insulin-secreting cells in the hyperglycemic nude mouse. To further elucidate the pathogenesis of the hyperglycemic state in the athymic nude mouse, we have studied the effects of insulin on the transport of glucose in skeletal muscle by measuring basal and insulin-stimulated uptake of a nonmetabolizable glucose analogue, 2-deoxy-D-glucose by using the perfused hindquarter preparation. Although basal 2-deoxy-D-glucose uptake by peripheral skeletal muscle was similar in the hyperglycemic and control mice, the insulin-stimulated uptake of 2-deoxy-D-glucose was significantly decreased in the athymic nude mouse at both 0.1 milliunits/ml and supraphysiologic concentrations of insulin (1 milliunit/ml) when compared with control mice (P less than 0.05 and P less than 0.001, respectively). This form of peripheral insulin insensitivity with normal pancreatic beta cell reserve, in addition to the lean body mass of the diabetic animal, mimics in part the peripheral insulin insensitivity seen in non-insulin-dependent diabetes mellitus.     

Long-term treatment with atrial natriuretic peptide inhibits ATP production and insulin secretion in rat pancreatic islets

Atrial natriuretic peptide (ANP) levels correlate with hyperglycemia in diabetes mellitus, but ANP effects on pancreatic islet β-cell insulin secretion are controversial. ANP was investigated for short- and long-term effects on insulin secretion and mechanisms regulating secretion in isolated rat pancreatic islets. A 3-h incubation with ANP did not affect basal or glucose-stimulated islet insulin secretion. However, 7-day culture of islets with 5.5 mM glucose and ANP (1 nM - 1 μM) markedly inhibited subsequent glucose (11 mM)-stimulated insulin secretion; total islet insulin content was not affected. Following ANP removal for 24 h, the islet insulin-secretory response to glucose was restored. The insulin-secretory response to other insulin secretagogues, including α-ketoisocaproic acid, forskolin, potassium chloride, and ionomycin were also markedly inhibited by chronic exposure to ANP. However, the combination of potassium chloride and α-ketoisocaproic acid was sufficient to overcome the inhibitory effects of ANP on insulin secretion. The glucose-stimulated increases in islet ATP levels and the ATP/ADP ratio were completely inhibited in ANP 7-day-treated islets vs. control; removal of ANP for 24 h partially restored the glucose response. ANP did not affect islet glycolysis. ANP significantly increased levels of islet activated hormone-sensitive lipase and the expression of uncoupling protein-2 and peroxisome proliferator-activated receptor-δ and -α. Although islet ANP-binding natriuretic peptide receptor-A levels were reduced to 60% of control after 7-day culture with ANP, the ANP-stimulated cGMP levels remained similar to control islet levels. Thus, long-term exposure to ANP inhibits glucose-stimulated insulin secretion and ATP generation in isolated islets.     

Effect of iodoacetic acid on maintenance of pancreatic endocrine cells of the neonatal rat

This report describes the specific cytotoxicity of iodoacetic acid (IAA) in selectively destroying the fibroblastoid cells and stimulating the in vitro function of neonatal B cells prepared from rat pancreases. Under culture conditions with a basal medium containing 5.5 mM D-glucose alone, the responses to insulin secretagogues tested were abolished by day 7 of culture. In contrast, the addition of 10 microM IAA enhanced either insulin release evoked by D-glucose (16.7 mM), L-leucine (10 mM) and 2-ketoisocaproate (10 mM) or the cellular insulin content to approximately twice the initial levels (day 0). L-Glutamine (10 mM) augmented the stimulatory effect of L-leucine or 2-ketoisocaproate. Moreover, the continuous application of IAA significantly increased the rates of glutamine oxidation in endocrine cells after 7 days of culture. On the other hand, the IAA-supplemented medium did not preserve the function of A cells. The phase-contrast microphotograph examination revealed the selective removal of fibroblasts from the monolayer cultures. This corresponded very closely with a remarkable reduction in culture DNA content.     

Effect of glucose uptake on growth rate of mouse 3T3 cells

The objective of this investigation was to determine whether the rate of glucose uptake by mouse 3T3 cells was a primary determinant of growth rate. The experimental approach was to control the rate of glucose uptake into intracellular pools by supplying this sugar at varying concentration in minimal Eagle's medium with dialyzed serum in the absence and presence of 6-deoxy-D-glucose, a metabolically inert homomorphic analog of D-glucose that competitively inhibits the uptake of D-glucose. Total hexose (D-glucose and 6-deoxy-D-glucose) concentration was maintained at the physiological concentration of 5.5 mM, in order to maintain saturation and maximum activity of the D-glucose transport system; thus the flux of D-glucose into the cell was controlled by adjusting its concentration relative to its competing nonmetabolizable analog. It was found that even when the concentration of D-glucose was reduced to 0.7 mM, one eighth of the “normal” level of 5.5 mM. and 6-deoxy-D-glucose was present in sevenfold excess (4.8 mM), conditions under which glucose uptake was reduced to 20% of that shown by cells in the presence of 5.5 mM D-glucose, and intracellular pools of glucose and phosphorylated sugars derived from glucose were reduced to approximately 14% of normal, there was not a significant decrease in growth rate. These data support the view that the rate of glucose uptake is not a primary determinant of growth rate under the usual conditions of cell culture.     

Effect of D-glucosamine on the functional maturation of cultured B cells of the neonatal rat

The present study demonstrates the effect of glucosamine on the functional maturation of cultured B cells of the neonatal rat. When B cells had been maintained at a physiological concentration (5.5 mM) of glucose for 7 days, a drop in the stimulatory effect of 16.7 mM glucose on insulin release and biosynthesis was observed together with a reduced insulin content. By contrast, the sensitivity of glucose-induced insulin release was increased after one week of culture with 5.5 mM glucose and 5 mM glucosamine. And both the insulin content and glucose-induced insulin biosynthesis also remained at the same level as observed at the first day of culture with 5.5 mM glucose alone. In summary, it was suggested that glucosamine-supplemented culture may result in the transition of B cells of neonatal rat from a poor glucose sensitivity to adult-type response of insulin release.     

Transport enhancement and reversal: glucose and 3-O-methyl glucose.

In chick embryo fibroblast cultures the 15- to 30-fold enhancement of D-glucose uptake observed when cells are starved of glucose for 24 hours is not duplicated for derivatives of glucose that compete effectively for uptake and have generally been considered to use the same carrier. 2-deoxy-D-glucose, D-mannose, D-galactose and D-glucosamine are derepressed progressively less sharply in that order with glucosamine uptake never more than doubled by starvation. D-glucose at a concentration of 5.5 mM in the 24-hour conditioning medium is a strong "repressor" resulting in low "transport" behavior for each of the five sugars cited. D-glucosamine is equally effective at the same concentration. A 10-fold reduction in the concentration of glucosamine (0.55 mM) allows for the escape from repression of mannose, glucose, and deoxyglucose uptake while the others remain repressed. Mannose uptake escapes as well when the glucose concentration in the "conditioning" medium is similarly reduced. Under certain conditions of starvation and cell density dramatic effects of supplemental stimulation by insulin can be achieved. Insulin withdrawal interrupts the supplemental stimulation process. Cycloheximide, actinomycin D and cordycepin block both non-insulin and insulin-induced derepression. Short exposure (15-30 minutes) of 24-hour starved cells to glucose (5.5 mM) reduces glucose sharply but does not affect 3-O-methyl glucose uptake. If the exposure is to 2-deoxyglucose (5.5 mM) further derepression of glucose uptake results.     

Vasoactive intestinal polypeptide enhances hormone content and insulin release in cultured fetal rat islets

The effect of porcine vasoactive intestinal polypeptide (VIP) on development of the biphasic insulin release response in cultured fetal rat islets was investigated. Fetal islets, 21.5 days gestational age, were cultured for 7 days in RPMI 1640 culture medium containing either 2.8 or 11.1 mM glucose adn subsequently challenged with 16.7 mM glucose in a perfusion system. Islets were exposed to VIP at a final concentration of 13.2 nM by adding the peptide to the perifusion buffer (acute exposure) or by adding it to the culture medium throughout the culture period (chronic exposure). Islet hormone and DNA contents were also quantitated at the end of the culture period. Acute exposure to VIP resulted in no alterations of the insulin release pattern after culture in the presence of either glucose concentration. However, chronic treatment of islets with 13.2 nM VIP in the presence of 2.8 mM glucose resulted in significant increases in the maximum rate of insulin release during the first phase and the total amount of insulin release during both phases. Similarly, islets cultured in the presence of 11.1 mM glucose and 13.2 nM VIP demonstrated enhanced biphasic insulin release patterns with increased maximum rate and total amount of release during both phases. The presence of VIP and 2.8 mM glucose increased islet glucagon and somatostatin contents, but islet DNA and insulin contents remained unchanged. These findings indicate that VIP plays a significant role in the in vitro development of the biphasic insulin release pattern and may be a factor controlling the maturation of the fetal islet in vivo.     

Cryopreservation of mouse pancreatic islets: effects of different glucose concentrations in the post-thaw culture medium on islet recovery

It was the aim of this study to investigate the influence of the glucose concentration of the post-thaw culture medium on islet B-cell survival after cryopreservation by the combined assessments of islet recovery, islet DNA and insulin contents, and insulin release. Collagenase isolated mouse islets were kept in culture for 3 days in the presence of 11.1 mM glucose and then transferred to freezing ampoules containing Hanks' solution supplemented with 10% calf serum and 2 M dimethyl sulfoxide. After a 20-min incubation at 0 degrees C the islets were cooled at a rate of 25 degrees C/min to -70 degrees C and subsequently plunged into liquid nitrogen. After 2 hr the frozen islets were rapidly thawed at 37 degrees C, transferred to culture dishes, and cultured for another 3 days in the presence of 2.8, 5.6, 11.1, 16.7, or 28 mM glucose. Nonfrozen control islets were treated identically after a preceding 3-day culture at 11.1 mM glucose. The percentage recovery of cryopreserved islets was decreased compared to that of nonfrozen islets, but was increased when higher glucose concentrations were used in the post-thaw culture medium. Since the DNA content of the cryopreserved islets was slightly decreased, the overall survival rate of the cryopreserved B-cells, when cultured at the higher glucose concentrations after thawing, was found to be about 75%. The insulin content of the cryopreserved islets was decreased but the glucose-stimulated insulin release was essentially the same as that of the nonfrozen islets.(ABSTRACT TRUNCATED AT 250 WORDS)     

Studies of insulin release and rat pancreatic islet metabolism with diastereomers of D-glucose

Studies of insulin release with diastereomers and other analogues of D-glucose demonstrated that only sugars which undergo oxidation to CO₂ stimulate insulin release by the pancreatic islet. None of the non-metabolizable diastereomers of glucose stimulated insulin release in the presence of a substimulatory concentration of glucose for fuel. Although 5.5 mM glucose formed 77% as much CO₂ as 16.7 mM mannose and twice that of 16.7 mM fructose, 5.5 mM glucose did not stimulate insulin release whereas 16.7 mM mannose and fructose did stimulate insulin release. These results indicate that the important stimulus for glucose-induced insulin release involves metabolism of glucose, but that the stimulus does not involve solely a fuel function of glucose.     

Glucose regulates glucokinase activity in cultured islets from rat pancreas

In this study, we have used isolated pancreatic islets cultured for 7 days in 3 or 30 mM glucose to explore whether glucokinase is induced or activated by high glucose concentrations and has related enzyme activity to glucose-stimulated insulin release. Islets cultured in low glucose medium or low glucose medium plus 350 ng/ml insulin did not respond to high glucose stimulation. Islets cultured in medium containing high glucose concentrations showed a high rate of basal insulin secretion when perifused with 5 mM glucose, and the insulin release was greatly augmented in a biphasic secretion profile when the glucose concentration was raised to 16 mM. Islet glucokinase and hexokinase activities were determined by a sensitive and specific fluorometric method. Glucokinase activity was reduced to approximately 50% in islets cultured in low glucose medium with or without insulin present compared to results with fresh islets. However, islets cultured in 30 mM glucose showed that glucokinase activity was elevated to 236% compared to results with fresh islets. It is concluded that (a) glucose is the physiological regulator of glucokinase in the islet of Langerhans and that (b) the activity of glucokinase plays a crucial role in glucose-induced insulin secretion.     

Maintenance of pancreatic endocrine cells of the neonatal rat: VII. The effect of 3-amino-3-deoxyglucose on insulin secretion from perifused B cells

Monolayer cultures of the pancreas of the neonatal rat were maintained in TCM 199 medium, supplemented with 5.5 mM glucose, with or without 5 mM 3-amino-3-deoxyglucose, and perifused to examine the changes which occurred in the insulin secretory response during culture. On day 0, B cells showed a monophasic insulin secretion in response to 16.7 mM glucose, whereas in the presence of 200 nM 12-o-tetradecanoyl phorbol-13-acetate, 40 microM lysophosphatidylcholine, 10 microM forskolin or 1 mM 3-isobutyl-1-methylxanthine, the same dose of glucose stimulated insulin secretion in a biphasic fashion. Under culture conditions without 3-amino-3-deoxyglucose, the response to glucose totally disappeared after 7 days, and that to 10 mM of either leucine or 2-ketoisocaproate was as low as that of day 0. In contrast, B cells that had been cultured for 7 days in medium with 3-amino-3-deoxyglucose showed an adult-like biphasic pattern in response to glucose. When stimulated by glucose at a linear gradient concentration running from 0 to 20 mM, the B cells responded to increasing concentrations of glucose in a dose-dependent fashion. Further, the response of cAMP to glucose was increased by adding forskolin or 3-isobutyl-1-methylxanthine, which also enhanced the secretion of insulin under either a step-wise or slow-rise stimulation with glucose. The effect of 12-o-tetradecanoyl phorbol-13-acetate was also outstanding. Likewise, the addition of either leucine or 2-keptoisocaproate induced a striking increase in the secondary phase secretion as well as promoting the rates of glutamine oxidation within the cells. In conclusion, it is suggested that the high response to a wider variety of stimuli may represent the reaction of neonatal B cells to the cultural milieu rather than a process of physiological development, and these effects exhibited by 3-amino-3-deoxyglucose would be related to a change in the constituents of glycoproteins in the cells.     

Effects of insulin on glucose uptake in cultured cells from the central nervous system of rodent.

1. Incubation of C6 glioma cultures with insulin resulted in a time and dose-dependent stimulation of 2-deoxy-D-glucose uptake. The maximal stimulation (160% of the control) was observed with 1 nM insulin and 0.05 nM caused half-maximum effect. 2. Incubation of NG 108-15 (neuroblastoma x glioma hybrid) and N2 neuroblastoma cells with 160 nM insulin did not result in a significant stimulation of this glucose uptake. 3. The basal level and stimulatory effect by insulin on this glucose uptake observed in C6 glioma cells were dependent on the presence of calcium in the medium. 4. Such an increase in glucose uptake in C6 glioma cells was also observed in the presence of diacylglycerol (DG) generating agents, such as carbachol (1 mM) and phospholipase C (0.05 unit/ml) or of DG analogs, such as sn-1,2-dioctanoyl glycerol (250 microM) and phorbol myristate acetate (1 microM). 5. Our results indicated that both calcium ion and DG levels play important roles in the regulation of glucose uptake in the glial cells, but not in neuronal cells from the brain.     

The insulin secretion of a minced neonatal rat pancreas cultured in a pancreatic chamber, in response to various insulin secretagogues

The minced pancreas of the neonatal rat was cultured for 35 days in a pancreatic chamber which was constructed of a plastic tube and an ultrafiltration membrane. Insulin and amylase secreted from this pancreatic chamber into the culture medium were measured. During the experiment, the concentration of glucose in the culture medium was changed between 5.5 and 16.5 mM at 2-3 day intervals in order to determine the insulin secretory response of the pancreatic tissue. Insulin secretion was markedly increased in response to 16.5 mM glucose. The ratio of insulin secretion to amylase secretion in the culture medium increased with the advance of culture days although secretions of both insulin and amylase decreased individually. On the 7th culture day, short term incubations were performed to test with various insulin secretagogues; obvious insulin release into the incubation medium was observed. These results show that the pancreatic chamber also in vitro secretes insulin rapidly and significantly in response to various stimuli; that by longer culture of a neonatal rat pancreas in this device, insulin secretory cells without exocrine tissue would be obtained without using digestive enzymes; that application of a pancreatic chamber for a pancreatic transplantation may be feasible.