Secretagogue-induced diacylglycerol accumulation in isolated pancreatic islets. Mass spectrometric characterization of the fatty acyl content indicates multiple mechanisms of generation

Diacylglycerol accumulation has been examined in secretagogue-stimulated pancreatic islets with a newly developed negative ion chemical ionization mass spectrometric method. The muscarinic agonist carbachol induces islet accumulation of diacylglycerol rich in arachidonate and stearate, and a parallel accumulation of 3H-labeled diacylglycerol occurs in carbachol-stimulated islets that had been prelabeled with [3H]glycerol. Islets so labeled do not accumulate 3H-labeled diacylglycerol in response to D-glucose, but D-glucose does induce islet accumulation of diacylglycerol by mass. This material is rich in palmitate and oleate and contains much smaller amounts of arachidonate. Neither secretagogue influences triacylglycerol labeling, and neither induces release of [3H]choline or [3H]phosphocholine from islets prelabeled with [3H]choline. These observations indicate that the diacylglycerol that accumulates in islets in response to carbachol arises from hydrolysis of glycerolipids, probably including phosphoinositides. The bulk of the diacylglycerol which accumulates in response to glucose does not arise from glycerolipid hydrolysis and must therefore reflect de novo synthesis. The endogenous diacylglycerol which accumulates in secretagogue-stimulated islets may participate in insulin secretion because exogenous diacylglycerol induces insulin secretion from islets, and an inhibitor of diacylglycerol metabolism to phosphatidic acid augments glucose-induced insulin secretion.     

proTRH gene expression by fetal pancreatic islets in culture

The hypothalamic tripeptide, thyrotropin-releasing hormone (TRH), has been detected in neonatal pancreatic tissue and localized by immunocytochemistry in the islets of Langerhans. To determine whether the TRH gene is expressed in islets, we have extracted RNA from cultured rat islets and probed for proTRH mRNA using a [32P]-labeled antisense RNA. Islet proTRH mRNA comigrated with the 1.6 kilobase proTRH mRNA present in the rat hypothalamus. Normalized to total RNA, islets cultured for 7 days contained at least 10 times more proTRH mRNA than day 1 whole pancreas. We conclude that pancreatic TRH is synthesized in situ in the islets of Langerhans. This is the first attempt to characterize and quantify proTRH mRNA using neoformed foetal islets. We propose that quantitative analysis of proTRH mRNA concentrations in this culture system will enable study of the direct regulation of TRH biosynthesis in the pancreas.     

Studies of the development of frog hemopoietic tissue in vitro. I. Spleen culture assay of an erythropoietic factor in anemic frog blood.

A new in vitro technique has been described for demonstrating the presence of an erythropoietic factor in the circulating blood of frogs. The assay system consisted of MC33 medium, erythropoietically active spleen cells from Rana pipiens, and plasma or serum from frogs made anemic via phenylhydrazine or bleeding. The spleen cells, which remain erythropoietically active for up to nine days, were found to incorporate 59Fe, [3H]thymidine, [3H]uridine, and [3H]leucine at a greater rate in the presence of plasma or serum from anemic versus normal frogs. The hormones triiodothyronine, prolactin, and erythropoietin were not effective in eliciting an hemopoietic response. The data presented suggest that the spleen from that adult frog is a major site of erythroid differentiation and maturation.     

Insulin release and eflux of [32P]Phosphate from islets of rat Langerhans treated with iodoacetic acid and the anomers of D-glucose.

To clarify the insulin-releasing mechanism, we studied insulin release and the efflux of [32P]phosphate by glucose at 0.1 mM/min of gradient level or at 16.7 mM, and other metabolism in islets of rat Langerhans. When treated with 1 mM iodoacetic acid (IAA) plus the anomers of D-glucose at 2.8 mM for 6 min at 37 degrees C, islets elicited insulin at half the control rate under the step-wise stimulation by glucose and at the same rate as the control under the slow-rise stimulation by glucose. Using islets treated with IAA plus the alpha anomer at 16.7 mM, the step-wise stimulation secreted insulin at half a rate of the control and the slow-rise stimulation at the rate lower than the control, which was not significantly different from the control rate. Treatment with IAA plus the beta anomer at 16.7 mM inhibited insulin release under both types of stimulations by glucose. The step-wise stimulation caused the same rapid efflux of [32P]phosphate from IAA-treated islets as from the control islets, except for islets treated with IAA plus the beta anomer at 16.7 mM. The rate of glucose utilization in islets was inhibited by all IAA-treatments to the same extent, being merely half the control rate. Treatments with IAA plus the anomers at 16.7 mM significantly reduced the formation of [3H]-cAMP and the activity of protein phosphokinase in islets, while in the presence of the anomers at 2.8 mM IAA produced no significant effect. Neither IAA-treatments altered the uptake of 45Ca and the ATP content in islets. The uptake of [14C]IAA was significantly enhanced by the presence of the beta anomer at 16.7 mM to two times the control level. On the basis of these results, we suggested that the B cell might contain both glucoreceptors and rate-sensors of glucose controlling insulin release and the former might be less sensitive to IAA as compared with the latter.     

Embryonic Sources of Definitive Hemopoietic Stem Cells

A review of one of the key problems of experimental hematology: the origin of hemopoietic stem cells in the development of vertebrates (amphibians, birds, and mammals). The appearance and functioning of two independent sources of hemopoietic stem cells (extra- and intraembryonic) were considered in amphibians, birds, and mammals. The contribution of each source to the formation of definitive hemopoietic tissue was analyzed. It was shown for amphibians and birds that intraembryonic organs such as the dorsolateral plate and the mesenchyme of dorsal aorta are involved in the formation of adult hemopoietic tissue, while the extraembryonic organs such as ventral islets and the yolk sac are devoid of true stem cells and provide only for the primary, transient hemopoiesis. New data have been considered concerning the previously unknown intraembryonic hemopoietic organ in mammals, a region of aorta–gonad–mesonephros arising in embryogenesis simultaneously with the yolk sac. Two extreme views on the involvement of stem cells of all these organs in the formation of definitive hemopoiesis have been considered. The data are provided on the interaction of the embryonic hemopoietic stem cells and the hemopoietic microenvironment of adult recipients.     

Modulation of platelet-activating-factor-induced calcium influx and intracellular calcium release in platelets by phorbol esters.

1. The rate of 45Ca2+ efflux from prelabelled rat islets of Langerhans was stimulated by carbachol in a dose-dependent manner. 2. Significant stimulation occurred in the presence of 0.2 microM-carbachol; the response was half-maximal at 3-5 microM and was maximal at 20 microM. 3. Stimulation of 45Ca2+ efflux by carbachol was not dependent on the presence of extracellular Ca2+ and was enhanced in Ca2+-depleted medium. 4. Stimulation of 45Ca2+ efflux by 5 microM-carbachol occurred independently of any change in [3H]arachidonic acid release in prelabelled islets, and probably reflected generation of inositol trisphosphate in the cells. 5. The amphipathic peptide melittin failed to increase islet-cell 45Ca2+ efflux at a concentration of 1 microgram/ml, and caused only a modest increase at 10 micrograms/ml. 6. Despite its failure to increase 45Ca2+ efflux, melittin at 1 microgram/ml caused a marked enhancement of 3H release from islets that had been prelabelled with [3H]arachidonic acid. 7. The stimulation of 3H efflux caused by melittin correlated with a dose-dependent increase in the unesterified [3H]arachidonic acid content of prelabelled islets and with a corresponding decrease in the extent of labelling of islet phospholipids. 8. Combined addition of melittin (1 microgram/ml) and 5 microM-carbachol to perifused islets failed to augment 45Ca2+ efflux relative to that elicited by carbachol alone. 9. The data indicate that melittin promotes an increase in arachidonic acid availability in intact rat islets. They do not, however, support the proposal that this can either directly reproduce or subsequently modify the extent of intracellular Ca2+ mobilization induced by agents that cause an increase in inositol trisphosphate.     

Metabolism of D-glucose anomers in rat pancreatic islets exposed to equilibrated D-glucose.

This study aims at establishing the contribution of alpha- and beta-D-glucose to the total generation of (3)HOH by rat pancreatic islets exposed to D-[2 - (3)H]glucose or D-[5 - (3)H] glucose at anomeric equilibrium. The islets were incubated for 60 min at 4 degrees C in the presence of equilibrated D-glucose (2.8 and 8.3 mM) mixed with tracer amounts of either alpha- or beta-D-glucose labelled with tritium on either the C (2) or C (5) of the hexose. Relative to their respective concentrations, (3)HOH generation from the anomers labelled with tritium on the C (2) or C (5) of the hexose provided beta/alpha ratios comparable to those previously found at both 2.8 and 8.3 mM, when the islets were exposed to each anomer separately. The relative contributions of each anomer to the total generation of (3)HOH was also close to the theoretical values derived from mathematical models for the catabolism of D-glucose at anomeric equilibrium in rat islets at both 2.8 and 8.3 mM and in the case of both D-[2 - (3)H]glucose and D-[5 - (3)H]glucose. Thus, even in islets exposed to D-glucose at anomeric equilibrium, the metabolic fate of alpha-D-glucose differs vastly from that of beta-D-glucose, the enzyme-to-enzyme channelling between hexokinase isoenzymes, especially glucokinase, and phosphoglucoisomerase being restricted to alpha-D-glucose 6-phosphate.     

Metabolic Response to Nonglucidic Nutrient Secretagogues and Enzymatic Activities in Pancreatic Islets of Adult Rats after Neonatal Streptozotocin Administration

In islets from adult rats injected with streptozotocin during the neonatal period, both a nonmetabolized analog of L-leucine and 3-phenylpyruvate augmented ¹⁴CO₂ output from islets either prelabeled with L-[U-¹⁴C]glutamine or exposed to D-[2-¹⁴C]glucose and D-[6-¹⁴C]glucose in a manner qualitatively comparable to that found in islets from control rats. The islets of diabetic rats differed, however, from those of control rats by their unresponsiveness to both the L-leucine analog and a high concentration of D-glucose in terms of increasing ³HOH generation from [2-³H]glycerol, an impaired sparing action of the hexose upon ¹⁴CO₂ output from islets prelabeled with [U-¹⁴C]palmitate, and, most importantly, by a decreased rate of D-[2-¹⁴C]glucose and D-[6-¹⁴C]glucose oxidation when either incubated at a high concentration of the hexose (16.7 mM) or stimulated by nonglucidic nutrient secretagogues at a low concentration of D-glucose (2.8 mM). In islet homogenates, the activity of glyceraldehyde phosphate dehydrogenase, glutamate decarboxylase, and NADP-malate dehydrogenase was lower in diabetic than control islets. Such was not the case for glutamatealanine transaminase, glutamate-aspartate transaminase, or glutamate dehydrogenase. The neonatal injection of streptozotocin thus affected, in the adult rats, the activity of several islet enzymes. Nevertheless, the metabolic data suggest that an impaired circulation in the glycerol phosphate shuttle, as observed in response to stimulation of the islets by either a high concentration of D-glucose or nonglucidic nutrient secretagogues, represents an essential determinant of the preferential impairment of glucose-induced insulin release in this model of non-insulin-dependent diabetes.     

Effects of steroid hormones on DNA synthesis and insulin production of isolated foetal rat pancreatic islets in tissue culture

This study describes the effects of prednisolone, oestradiol-17B and progesterone on DNA replication and insulin biosynthesis and release of cultured foetal rat islets. Prednisolone significantly inhibited the incorporation of [3H]-thymidine into DNA of islets cultured at a physiological (5.5 mmol/l) but not at a high (22 mmol/l) glucose concentration. It also increased insulin biosynthesis and release of islets cultured at 5.5 mmol/l glucose. Oestradiol-17B reduced the incorporation of [3H]-thymidine into islet DNA at both glucose concentrations, but had no effect on insulin biosynthesis and release. Progesterone had no effect on either the growth or the function of the cultured foetal islets. The observations show a clear dissociation between the action of prednisolone on islet growth versus islet function. They also support the view that neither progesterone nor oestradiol is directly involved in the high rate of B-cell replication previously observed in islets of pregnant rats.     

Biosynthesis of peptidyl leukotrienes and other lipoxygenase products by rat pancreatic islets. Comparison with macrophages and neutrophils

Biochemical evidence in support of a role for arachidonic acid 5-lipoxygenase activity in pancreatic islet insulin secretion has been obtained. Peptidyl leukotriene metabolism was studied in rat islets using a dual-labeling technique in extended culture, with analysis of arachidonic acid metabolites by reverse-phase high-performance liquid chromatography. The production of [3H]arachidonoyl/[35S]cysteinyl leukotrienes C4 and E4 by islets was compared with that by mouse resident peritoneal macrophages and with the lipoxygenase metabolism of rabbit polymorphonuclear leukocytes. The stimulus-specific nature of leukotriene biosynthesis was characterized by low basal biosynthesis in unstimulated islet cells with a calcium-mediated activation of 5-lipoxygenase product formation.     

Inositol cycling and phosphoinositide metabolism in rat pancreatic islets.

The effects of extracellular inositol and LiCl on intra-islet inositol cycling were investigated in isolated rat islets. Islets were cultured for 7 days in inositol-free RPMI 1640 containing 11.1 mM glucose and labeled with 3.7 MBq myo-[2-3H] inositol for the final 3 days. The labeled islets were then perifused under various conditions. There was a persistent increase in [3H] efflux from labeled islets stimulated with 16.7 mM glucose for 60 min. Addition of 5 mM inositol resulted in marked release of [3H] from islets and a decrease in radioactive inositol-lipid. When islets were perifused with 5 mM LiCl, the glucose-induced efflux of [3H] was greatly inhibited. The inhibitory effect of LiCl on [3H] efflux was partially corrected by the addition of 5 mM inositol. A prominent effect of LiCl was an increase in inositol monophosphate, indicating increased phospholipase C activity. This was detected within 5 min after glucose stimulation. The present data suggest that there is always very active intra-islet inositol cycling and that glucose can augument inositol-lipid metabolism.     

Isolation and study of the properties of specific antisera to [leu]enkephalin

The immunogenic conjugates of [leu]enkephalin and bovine serum albumin (BSA) with bisdiazobenzidine and 1,4-benzoquinone as bifunctional reagents have been synthesized. The antisera with high titer of antibodies to [leu]enkephalin have been obtained at rabbit [correction of rat] immunization by both conjugates. The antiserum obtained at immunization by conjugate [leu]enkephalin-benzoquinone-BSA possesses the high affinity and sensitivity to [leu]enkephalin.     

Localization and biosynthesis of polyamines in insulin-producing cells.

Two recently developed fluorescence cytochemical methods, specific for spermidine and spermine, were used to localize polyamines in the endocrine pancreas. The polyamines were restricted to the insulin-producing beta-cells and were mainly associated with the secretory granules. Chemical polyamine determinations carried out on isolated rat and mouse pancreatic islets revealed large amounts of polyamines. Compared with extracts of whole pancreas, the islets contained very high concentrations of spermine relative to spermidine. Biosynthesis of polyamines from [3H]ornithine or from [3H]putrescine in isolated islets was significantly stimulated at high glucose concentrations. Moreover, significant incorporation of label from [3H]putrescine was also detected in gamma-aminobutyric acid. This incorporation, however, was not stimulated by high glucose. Possible roles for polyamines associated with the secretory granules in insulin-producing cells are discussed.     

Isolation of insulin-sensitive phosphatidylinositol-glycan from rat adipocytes. Its impaired breakdown in the streptozotocin-diabetic rat.

Although exogenous phosphatidic acid (PA) has been shown to promote insulin release, the effects of endogenous PA on endocrine function are largely unexplored. In order to generate PA in situ, intact adult-rat islets were treated with exogenous phospholipases of the D type (PLD), and their effects on phospholipid metabolism and on insulin release were studied in parallel. Chromatographically purified PLD from Streptomyces chromofuscus stimulated the accumulation of PA in [14C]arachidonate- or [14C]myristate-prelabelled islets, and also promoted insulin secretion over an identical concentration range. During 30 min incubations, insulin release correlated closely with the accumulation of [14C]arachidonate-labelled PA (r2 = 0.98; P less than 0.01) or [14C]myristate-labelled PA (r2 = 0.97; P less than 0.01). Similar effects were seen both in freshly isolated and in overnight-cultured intact islets. In contrast, PLDs (from cabbage or peanut) which do not support phospholipid hydrolysis at the pH of the extracellular medium also did not promote insulin release. The effects on secretion of the active PLD preparation were inhibited by modest cooling (to 30 degrees C); dantrolene or Co2+ also inhibited PLD-induced secretion without decreasing PLD-induced PA formation. Additionally, the removal of PLD left the subsequent islet responsiveness to glucose intact, further supporting an exocytotic non-toxic mechanism. PLD-induced insulin release did not appear to require influx of extracellular Ca2+, nor could the activation of protein kinase C clearly be implicated. During incubations of 30 min, PLD selectively generated PA; however, more prolonged incubations (60 min) also led to production of some diacyglycerol and free arachidonic acid concomitant with progressive insulin release. These data suggest that PLD activation has both rapid and direct effects (via PA) and more delayed, secondary, effects (via other effects of PA or the generation of other lipid signals). Taken in conjunction with our demonstration that pancreatic islets contain an endogenous PLD which generates PA [Dunlop & Metz (1989) Biochem. Biophys. Res. Commun. 163, 922-928], these studies provide evidence suggesting that PLD activation (and possibly other pathways leading to PA formation) could play a role in stimulus-secretion coupling in pancreatic islets.     

Resistance to alloxan of tumoral insulin-producing cells

Rat pancreatic islets and insulin-producing cells of the RINm5F line were incubated for 5 min at 7 or 23 degrees C in media containing 3H2O and either L-[1-14C]glucose or [2-14C]alloxan. In the islets the intracellular distribution space of [2-14C]alloxan represented, at 7 and 23 degrees C respectively, 11.4 +/- 1.0 and 25.5 +/- 2.3% of the intracellular 3H2O space. In the RINm5F cells, the distribution space of [2-14C]alloxan failed to be affected by the ambient temperature and represented, after correction for extracellular contamination, no more than 5.2 +/- 0.5% of the intracellular 3H2O space. Preincubation for 30 min at 7 degrees C in the presence of alloxan (10 mM) failed to affect subsequent D-[U-14C]glucose oxidation in the tumoral cells, whilst causing a 70% inhibition of glucose oxidation in the islets. It is proposed that RINm5F cells are resistant to the cytotoxic action of alloxan, this being attributable, in part at least, to poor uptake of the diabetogenic agent.     

Effects in vitro of alloxan on the glucose metabolism of mouse pancreatic B-cells

To facilitate detailed studies of the B-cytotoxic action of alloxan we developed a model using isolated pancreatic islets of normal mice. An essential feature of this model is the low temperature employed during exposure to alloxan, which minimizes the degradation of the drug. The islets were incubated with alloxan for 30min at 4 degrees C and subsequently various aspects of their metabolism were studied. The O(2) consumption was measured by the Cartesian-diver technique. Islets exposed to 2mm-alloxan and control islets had the same endogenous respiration, whereas the O(2) uptake of the alloxan-treated islets was inhibited and that of the control islets stimulated when they were incubated with 28mm-glucose as an exogenous substrate. The islet glucose oxidation was estimated by measurement of the formation of (14)CO(2) from [U-(14)C]glucose at 37 degrees C. Compared with the controls, alloxan-treated islets showed a decrease in the glucose-oxidation rate in a dose-dependent manner. Pretreatment of the islets with 28mm-glucose for 30min at 37 degrees C completely protected against this effect, whereas preincubations at glucose concentrations below 16.7mm failed to exert any protective effect. The glucose utilization was estimated as the formation of (3)H(2)O from [5-(3)H]glucose. Alloxan (2mm) failed to affect islet glucoseutilization rate in the presence of either 2.8 or 28mm-glucose. In contrast, islets exposed to 5 or 10mm-alloxan exhibited lowered glucose utilization. It is concluded that in vitro alloxan has an acute inhibitory effect on the islet glucose metabolism, and that this action can be prevented by previous exposure to a high glucose concentration. The results are consistent with the idea that the B-cytotoxicity of alloxan reflects an interaction with intracellular sites involved in the oxidative metabolism of the B-cell.     

The role of haem in the regulation of rat liver tryptophan metabolism.

Anion-exchange h.p.l.c. analysis of [3H]inositol phosphates derived from glucose-stimulated isolated pancreatic islets that had been prelabelled with myo-[3H]inositol revealed that the predominant inositol trisphosphate was the 1,3,4-isomer [Ins(1,3,4)P3]. The 1,4,5-isomer [Ins(1,4,5)P3] was also detectable, as was a more polar inositol phosphate with the chromatographic properties of inositol 1,3,4,5-tetrakisphosphate [Ins(1,3,4,5)P4]. Glucose-induced accumulation of Ins(1,3,4)P3 was augmented by Li+ and occurred after maximal accumulation of Ins(1,4,5)P3. These findings suggest a possible role for Ins(1,3,4)P3 or its probable precursor Ins(1,3,4,5)P4 in stimulus-secretion coupling in pancreatic islets.     

Cyclic AMP-dependent protein phosphorylation and insulin secretion in intact islets of Langerhans.

Effects on insulin release, cyclic AMP content and protein phosphorylation of agents modifying cyclic AMP levels have been tested in intact rat islets of Langerhans. Insulin release induced by glucose was potentiated by dibutyryl cyclic AMP, glucagon, cholera toxin and 3-isobutyl-1-methylxanthine (IBMX); the calmodulin antagonist trifluoperazine reversed these potentiatory effects. Inhibition by trifluoperazine of IBMX-potentiated release was, however, confined to concentrations of IBMX below 50 microM; higher concentrations, up to 1 mM, were resistant to inhibition by trifluoperazine. IBMX-potentiated insulin release was also inhibited by 2-deoxyadenosine, an inhibitor of adenylate cyclase. In the absence of glucose, IBMX at concentrations up to 1 mM did not stimulate insulin release and in the presence of 3.3 mM-glucose IBMX was effective only at a concentration of 1 mM; under the latter conditions trifluoperazine again did not inhibit insulin secretion. The maximum effect on insulin release was achieved with 25 microM-IBMX. Islet [cyclic AMP] was increased by IBMX, with the maximum rise occurring with 100 microM-IBMX. The increase in [cyclic AMP] elicited by IBMX was more rapid than that induced by cholera toxin. Trifluoperazine did not significantly affect islet cyclic AMP levels under any of the conditions tested. When islets were incubated with [32P]Pi, radioactivity was incorporated into islet ATP predominantly in the gamma-position. The rate of equilibration of label was dependent on medium Pi and glucose concentration and at optimal concentrations of these 100% equilibration of internal [32P]ATP with external [32P]Pi required a period of 3h. Radioactivity was incorporated into islet protein and, in response to an increase in islet [cyclic AMP], the major effect was on a protein of Mr 15 000 on sodium dodecyl sulphate/polyacrylamide gels. The extent of phosphorylation of the Mr-15 000 protein was correlated with the level of cyclic AMP: phosphorylation in response to IBMX was inhibited by 2-deoxyadenosine but not by trifluoperazine. Fractionation of islets suggested that the Mr-15 000 protein was of nuclear origin: the protein co-migrated with histone H3 on acetic acid/urea/Triton gels. In the islet cytosol a number of proteins were phosphorylated in response to elevation of islet [cyclic AMP]: the major species had Mr values of 18 000, 25 000, 34 000, 38 000 and 48 000. Culture of islets with IBMX increased the rate of [3H]-thymidine incorporation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Evidence for glucose-responsive and -unresponsive pools of phospholipid in pancreatic islets

The effect of glucose on the metabolism of phospholipids in pancreatic islets was studied with three radioactive phospholipid precursors, [32P]orthophosphate, [3H]myoinositol, and [3H]arachidonic acid, to determine the conditions necessary for studying the breakdown of prelabeled phospholipids. Islets were incubated in the presence of a radioactive precursor for 60 or 90 min and in the presence of either 3.3 or 16.7 mM glucose to prelabel phospholipids. To study the breakdown of prelabeled phospholipid, the unincorporated precursor was removed and the islets were reincubated for 15 or 20 min under conditions that either did or did not stimulate insulin release. Prelabeling in the presence of a noninsulinotropic concentration of glucose (3.3 mM) supported the incorporation of precursors into almost all islet phospholipids studied. Prelabeling in an insulinotropic concentration of glucose (16.7 mM) increased the incorporation of precursors into a number of phospholipids even more; and reincubation in 16.7 mM glucose caused a rapid loss of radioactivity from specific phospholipids (phosphatidylinositol and/or phosphatidylcholine, depending on the precursor). This breakdown was observed only when islets had been prelabeled in 16.7 mM glucose. The amount of radioactivity lost from phospholipid corresponded roughly to the additional amount incorporated during the prelabeling in the high concentration of glucose. Radioactivity in phospholipids in islets prelabeled in 3.3 mM glucose or in nonsecretagogue metabolic fuels, such as malate plus pyruvate, did not decrease when the islets were subsequently exposed to 16.7 mM glucose, nor did it decrease in 3.3 mM glucose when these islets had been prelabeled in 16.7 mM glucose. Glyceraldehyde, an insulin secretagogue, but not galactose or L-glucose which are not insulin secretagogues, stimulated phospholipid breakdown in islets that had been prelabeled in 16.7 mM glucose. Depriving islets of extracellular calcium, a condition that inhibits insulin release, inhibited phospholipid breakdown. The results suggest that pancreatic islets contain a glucose-responsive and a glucose-unresponsive phospholipid pool. The glucose-responsive pool becomes labeled and undergoes rapid turnover only under stimulatory conditions and may play a role in the stimulus-secretion coupling of insulin release.