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.     

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.     

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.     

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.     

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.     

Priming effect of glucagon-like peptide-1 (7-36) amide, glucose-dependent insulinotropic polypeptide and cholecystokinin-8 at the isolated perfused rat pancreas.

The priming effect of glucagon-like peptide-1 (7-36) amide (GLP-1 (7-36) amide), glucose-dependent insulin-releasing polypeptide (GIP) and cholecystokinin-8 (CCK-8) on glucose-induced insulin secretion from rat pancreas was investigated. The isolated pancreas was perfused in vitro with Krebs-Ringer bicarbonate buffer containing 2.8 mmol/l glucose. After 10 min this medium was supplemented with GLP-1 (7-36) amide, GIP or CCK-8 (10, 100, 1000 pmol/l) for 10 min. After an additional 10 min period with 2.8 mmol/l glucose alone, insulin secretion was stimulated with buffer containing 10 mmol/l glucose for 44 min. In control experiments the typical biphasic insulin response to 10 mmol/l glucose occurred. Pretreatment of the pancreas with GIP augmented insulin secretion: 10 pmol/l GIP enhanced only the first phase of the secretory response to 10 mmol/l glucose; 100 and 1000 pmol/l GIP stimulated both phases of hormone secretion. After exposure to CCK-8, enhanced insulin release during the first (at 10 and 1000 pmol/l CCK-8) and the second phase (at 1000 pmol/l) was observed. Priming with 100 pmol/l GLP-1 (7-36) amide significantly amplified the first and 1000 pmol/l GLP-1 (7-36) amide both secretion periods, 10 pmol/l GLP-1 (7-36) amide had no significant effect. All three peptide hormones influenced the first, quickly arising secretory response more than the second phase. Priming with forskolin (30 mM) enhanced the secretory response to 10 mM glucose plus 0.5 nM GLP-1 (7-36) amide 4-fold. With a glucose-responsive B-cell line (HIT cells), we investigated the hypothesis that the priming effect of GLP-1 (7-36) amide is mediated by the adenylate cyclase system. Priming with either IBMX (0.1 mM) or forskolin (2.5 microM) enhanced the insulin release after a consecutive glucose stimulation (5 mM). This effect was pronounced when GLP-1 (7-36) amide (100 pM) was added during glucose stimulation. Priming capacities of intestinal peptide hormones may be involved in the regulation of postprandial insulin release. The incretin action of these hormones can probably, at least in part, be explained by these effects. The priming effect of GLP-1 (7-36) amide is most likely mediated by the adenylate cyclase system.     

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.     

Protein synthesis inhibitors activate glucose transport without increasing plasma membrane glucose transporters in 3T3-L1 adipocytes

In this study, we tested the hypothesis that hexose transport regulation may involve proteins with relatively rapid turnover rates. 3T3-L1 adipocytes, which exhibit 10-fold increases in hexose transport rates within 30 min of the addition of 100 nM insulin, were utilized. Exposure of these cells to 300 microM anisomycin or 500 microM cycloheximide caused a maximal, 7-fold increase in 2-deoxyglucose transport rate after 4-8 h. The effects due to either insulin (0.5 h) or anisomycin (5 h) on the kinetics of zero-trans 3-O-methyl[14C]glucose transport were similar, resulting in 2.5-3-fold increases in apparent Vmax values (control Vmax = 1.6 +/- 0.3 x 10(-7) mmol/s/10(6) cells) coupled with approximately 2-fold decreases in apparent Km values (control Km = 23 +/- 3.3 mM). Insulin elicited the expected increases in plasma membrane levels of HepG2/erythrocyte (GLUT1) and muscle/adipocyte (GLUT4) transporters (1.6- and 2.8-fold, respectively) as determined by protein immunoblotting. In contrast, neither total cellular contents nor plasma membrane levels of these two transporter isoforms were increased when 3T3-L1 adipocytes were treated with either anisomycin or cycloheximide. 3-[125I]Iodo-4-azidophenethylamido-7-O-succinyldeacetylforskoli n labeling of glucose transporters in plasma membrane fractions of similarly treated cells was also unaffected by these agents. Thus, a striking discrepancy was observed between the marked increase in cellular hexose transport rates due to these protein synthesis inhibitors and the unaltered amounts of glucose transporter proteins in the plasma membrane fraction. These data indicate that short-term protein synthesis inhibition in 3T3-L1 adipocytes leads to large increases in the intrinsic catalytic activity of one or both of the GLUT1 and GLUT4 transporter isoforms.     

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.     

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.     

Insulin release and metabolism of calcium, adenine and adenosine 3',5'-cyclic monophosphate.

In order to assess further the mechanisms involved in insulin release, we prelabeled rat pancreatic islets of Langerhans by incubating either 45Ca or [2-3H]adenine. When prelabeled islets were perfused with a glucose-free medium (the experiment with 45Ca) and a medium containing 2.8 mM glucose (the experiment with [2-3H]adenine) respectively, a constant rate of efflux of the radioactivity was established by 30 min in each case. D-Glucose at 16.7 mM concentration elicited a rapid efflux of 45Ca and [2-3H]adenine derivatives ([3H]Ad) within 4 to 6 min after commencing the step-wise stimulation by glucose, concomitantly with insulin release. However, L-glucose and D-galactose littel stimulated both 45Ca and [3H]Ad release. Lanthanum chloride caused a burst peak of 45Ca release in the absence of glucose. A rapid efflux of 45Ca was caused by beta-D-glucose and D-glyceraldehyde to much lesser extent than by alpha-D-glucose. The slowly rising concentration of glucose at 0.1 mM/min of gradient level failed to elicit any rapid efflux of 45Ca or [3H]Ad, although insulin release occurred in accordance with an increase in glucose concentration. Even when the gradient of glucose concentration was raised to 0.7 mM/min, glucose failed to stimulate an efflux of [3H]Ad but the subsequent stimulation by 16.7 mM glucose caused a rapid efflux of [3H]Ad concomitantly with the release of insulin. No rapid efflux of 45Ca was observed under a slow-rise glucose stimulation until the gradient level of the glucose concentration was raised to 6.7 mM. Analysis of distribution of the radioactive adenine derivatives after incubation showed that the adenosine fraction had the highest radioactivity in the medium followed by the ATP, adenine and cAMP fraction in that order, and the ATP fraction had the highest radioactivity in the islet. The ratio of radioactivity in the cAMP fraction in the medium to the total count was the highest among all. On the basis of these results, it was suggested that the discharge of [3H]Ad and 45Ca might occur with the alteration of the membrane permeability induced by a rapid change of the glucose concentration, and that their discharge might perhaps link to the glucoreceptor mechanism directly controlling insulin release.     

Role of cAMP in modulating intrafollicular progesterone levels and oocyte maturation in amphibians (Rana pipiens)

The role of cAMP in regulating follicular progesterone levels and oocyte maturation was investigated following in vitro culture of amphibian (Rana pipiens) ovarian follicles. Intrafollicular levels of cAMP were manipulated with the use of a stimulator of cAMP synthesis (forskolin) or by exogenous addition of cAMP alone or either of these in combination with an inhibitor of cAMP catabolism (3-isobutyl-1-methyl xanthine, IBMX). Follicular progesterone content was determined by RIA and oocyte maturation was assessed cytologically. In the presence of increasing doses of forskolin (0-3 microM), cAMP (0-3 mM), or dibutyryl cAMP (dbcAMP, 0-2.5 mM) increasing but low levels of progesterone were detected. Increasing doses of IBMX (0-0.09 mM) alone had no significant effect on follicular steroid content. Exogenous cAMP, dbcAMP, or IBMX (0.09 mM) suppressed hormone-induced oocyte maturation. Simultaneous exposure of follicles to increasing doses of both forskolin (0-3 microM) and IBMX (0-0.09 mM) markedly increased intrafollicular progesterone levels to those produced by frog pituitary homogenate (FPH). A marked increase in progesterone levels also occurred when follicles were exposed to exogenous cAMP (3 mM) and IBMX (0.09 mM). These results indicate that exogenous cAMP is incorporated by follicle cells and that forskolin effects are mediated through cAMP. Changes in follicular progesterone levels (increase and decrease) over time following FPH or cAMP manipulation (cAMP + IBMX or forskolin + IBMX) were essentially identical. In contrast to cAMP, cGMP was inactive in inhibiting hormone induced GVBD or stimulating follicular progesterone accumulation. Elevation of follicular and medium levels of progesterone resulting from FPH or cAMP stimulation required the presence of the somatic follicular cells. The decrease in follicular progesterone levels with prolonged culture was not associated with a corresponding increase in progesterone levels in the medium. The decrease in follicular progesterone levels appears to reflect steroid catabolism rather than loss of steroid to the culture medium. The results suggest that the level of intracellular cAMP in the follicle cells is modulated by the relative activity of the adenylate cyclase system and phosphodiesterase and that FPH can affect both components. Thus, intracellular levels of cAMP play a key role in regulating follicular progesterone levels and FPH action on the follicle cells. The steroidogenic capacity of follicle cells can be manipulated independently of FPH stimulation.     

Regulation of glycogen metabolism in primary cultures of rat hepatocytes. Restoration of acute effects of insulin and glucose in cells from diabetic rats

Defects in the deposition of glycogen and the regulation of glycogen synthesis in the livers of severely insulin-deficient rats can be reversed, in vivo, within hours of insulin administration. Using primary cultures of hepatocytes isolated from normal and diabetic rats in a serum-free chemically defined medium, the present study addresses the chronic action of insulin to facilitate the direct effects of insulin and glucose on the short term regulation of the enzymes controlling glycogen metabolism. Primary cultures were maintained in the presence of insulin, triiodothyronine, and cortisol for 1-3 days. On day 1 in alloxan diabetic cultures, 10(-7) M insulin did not acutely activate glycogen synthase over a period of 15 min or 1 h, whereas insulin acutely activated synthase in cultures of normal hepatocytes. By day 3 in hepatocytes isolated from alloxan diabetic rats, insulin effected an approximate 30% increase in per cent synthase I within 15 min as was also the case for normal cells. The acute effect of insulin on synthase activation was independent of changes in phosphorylase alpha. Whereas glycogen synthase phosphatase activity could not be shown to be acutely affected by insulin, the total activity in diabetic cells was restored to normal control values over the 3-day culture period. The acute effect of 30 mM glucose to activate glycogen synthase in cultured hepatocytes from normal rats after 1 day of culture was missing in hepatocytes isolated from either alloxan or spontaneously diabetic (BB/W) rats. After 3 days in culture, glucose produced a 50% increase in glycogen synthase activity during a 10-min period under the same conditions. These studies clearly demonstrate that insulin acts in a chronic manner in concert with thyroid hormones and steroids to facilitate acute regulation of hepatic glycogen synthesis by both insulin and glucose.     

The Effect of Glucose Concentration on Insulin-Induced 3T3-L1 Adipose Cell Differentiation

We examined the effect of glucose concentration on insulin-induced 3T3-L1 adipose cell differentiation. Oil Red O staining of neutral lipid, cellular triglyceride mass, and glycerol phosphate dehydrogenase (GPDH) activity, were greater in 3T3-L1 cells cultured at 5 mM vs. 25 mM glucose. GPDH activity was 2- to 4-fold higher at 5 mM vs. 25 mM glucose over a range of insulin concentrations (0. 1 to 100 nM). Insulin-stimulated tyrosine phosphorylation of insulin receptor substrate-1 (IRS-1) was 1. 7-fold greater, and insulinstimulated phosphoinositide 3-kinase association with IRS-1 was 2. 3-fold higher, at 5 mM vs. 25 mM glucose. These effects of glucose were not caused by alterations in IRS-1 mass or cell-surface insulin binding. In preadipose cells at 5 mM glucose, expression of the leukocyte antigen-related (LAR) protein tyrosine phosphatase (negative regulator of insulin signaling) was 63% of the level at 25 mM glucose. Our data demonstrate that glucose concentration affects insulin-induced 3T3-L1 adipose cell differentiation as well as differentiation-directed insulin signaling pathways. Alterations in LAR expression potentially may be involved in modulating these responses.     

Wortmannin, a PI3-kinase inhibitor: promoting effect on insulin secretion from pancreatic beta cells through a cAMP-dependent pathway

To determine the role of phosphatidylinositol 3-kinase (PI3-kinase) in the regulation of insulin secretion, we examined the effect of wortmannin, a PI3-kinase inhibitor, on insulin secretion using the isolated perfused rat pancreas and freshly isolated islets. In the perfused pancreas, 10(-8) M wortmannin significantly enhanced the insulin secretion induced by the combination of 8.3 mM glucose and 10(-5) M forskolin. In isolated islets, cyclic AMP (cAMP) content was significantly increased by wortmannin in the presence of 3.3 mM, 8.3 mM, and 16.7 mM glucose with or without forskolin. In the presence of 16.7 mM glucose with or without forskolin, wortmannin promoted insulin secretion significantly. On the other hand, in the presence of 8.3 mM glucose with forskolin, wortmannin augmented insulin secretion significantly; although wortmannin tended to promote insulin secretion in the presence of glucose alone, it was not significant. To determine if wortmannin increases cAMP content by promoting cAMP production or by inhibiting cAMP reduction, we examined the effects of wortmannin on 10(-4) M 3-isobutyl-1-methylxantine (IBMX)-induced insulin secretion and cAMP content. In contrast to the effect on forskolin-induced secretion, wortmannin had no effect on IBMX-induced insulin secretion or cAMP content. Moreover, wortmannin had no effect on nonhydrolyzable cAMP analog-induced insulin secretion in the perfusion study. These data indicate that wortmannin induces insulin secretion by inhibiting phosphodiesterase to increase cAMP content, and suggest that PI3-kinase inhibits insulin secretion by activating phosphodiesterase to reduce cAMP content.     

Induction of Cholinergic Expression in Developing Spinal Cord Cultures

The induction of choline acetyltransferase (ChAT) by cAMP derivatives was studied in dissociated spinal cord cultures. Dibutyryl cAMP (dbcAMP) and 8-bromo cAMP (1 mM) produced a 2-3-fold stimulation of ChAT activity in developing cultures whereas 8-bromo cGMP had no effect. A phosphodiesterase inhibitor, 3-isobutyl-l-methylxanthine, also increased (2-fold) ChAT activity in immature cultures. Significant elevations in ChAT were detected after 2 h incubation with dbcAMP. Maximum enzyme induction was observed 24 h after dbcAMP supplementation to the culture medium. Developmental studies revealed that ChAT could be induced on days 2-16 in culture. The largest induction of ChAT activity was observed on day 7 in culture. After day 19, when control enzyme activity attained levels of mature cultures, cAMP-mediated ChAT induction was no longer observed. Cycloheximide and actinomycin D blocked ChAT induction whereas basal enzyme activity remained unaffected. Culture protein content was not changed after 1-day exposure to dbcAMP. 125I-Tetanus toxin fixation after dbcAMP treatment revealed a 20% decrease from control in neuronal surface during days 7-9 in culture. These data indicated that cAMP derivatives produced a rapid increase in cholinergic expression during a specific period of development in spinal cord cultures. There appears to be specificity to this effect, as total neuronal surface does not respond in the same manner as ChAT activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

An inhibitor of sweet taste response modulates glucose-induced phosphoinositide breakdown in rat pancreatic islets.

We studied the effect of a specific-competitive inhibitor of the sucrose taste response, p-nitrophenyl-D-glucopyranoside (PNP-Glu) on insulin release and phosphoinositide metabolism in rat pancreatic islets. The alpha-anomer, but not the beta-anomer, of PNP-Glu at a concentration of 5 mM inhibited insulin release induced by 10 mM glucose. Islets were labeled by exposure for 2 h to 10 uCi of myo-[2-3H] inositol solution supplemented with 2.8 mM glucose. Forty islets were then incubated in the presence of 10 mM LiCl, 1 mM inositol and 10 mM glucose with or without the anomers of PNP-Glu. [3H] radioactivity in the incubation medium remained significantly greater in the presence of the alpha-anomer of PNP-Glu than in the presence of glucose alone after 5- and 20-min incubation. The inositol monophosphate levels in the islets incubated with glucose alone were increased more than in the islets with alpha-anomer. The beta-anomer of PNP-Glu did not change either glucose-induced insulin release or phosphoinositide breakdown. A patch-clamp study revealed that neither anomer affected the glucose-dependent ATP-sensitive K(+)-channels. These results indicate that the anomeric preference for glucose in insulin release in the pancreatic islets is closely associated with phosphoinositide breakdown.     

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.