Charges of nicotinamide adenine nucleotides and adenylate energy charge as regulatory parameters of the metabolism in Escherichia coli.

Methods for measurements of catabolic reduction charge (defined as NADH/(NADH+NAD+)) and anabolic reduction charge (defined as NADPH/(NADPH + NADP+)) are described using [14C]nicotinamide labeling of Escherichia coli cultures. Together with these parameters the adenylate energy charge (ATP + 1/2ADP)/(ATP + ADP + AMP) was measured using labeling with [2-3H]adenine. These three charges were found under different exponential growth conditions to have values independent of the growth conditions: catabolic reduction charge, 0.05; anabolic reduction charge, 0.45; and adenylate energy charge, 0.9. The charges were examined during interruption of growth primarily affecting catabolism, respiration, or anabolism, leading to changes of the charges. The changes of charges are evaluated as a possible regulation of the metabolic rates utilizing or producing the nucleotides by their respective charges.     

The response of stomata to CO2 relates to its effect on respiration and ATP level

External ATP enhanced stomatal opening of Commelina communis L. differently from EDTA. ATP was more effective in opening stomata than EDTA, when both were applied in amounts yielding equivalent free Ca²⁺ concentration. The stimulation by ATP depended upon its de-phosphorylation and was not due to the P₁ released. Hence an energetical contribution of external ATP appears possible. Increase in CO₂ concentration increased the stimulation of stomatal opening by ATP and diminished the internal ATP level, ATP/(ADP+AMP) ratio and respiration rate.     

Adenine nucleotides and the adenylate kinase equilibrium in livers of foetal and newborn rats

1. Measurements of ATP, ADP and AMP concentrations in livers of rats that had been delivered by Caesarian section indicate a rapid shift from a low to a high [ATP]/[AMP] ratio. This change is consistent with the cessation of glycolysis and the initiation of gluconeogenesis at birth. 2. When newborn animals are exposed to a 100% nitrogen atmosphere the hepatic ATP concentration falls and AMP increases. 3. Calculations of the [ATP][AMP]/[ADP](2) ratio give values that are close to the equilibrium constant of adenylate kinase except when the ATP concentration is high. 4. This difference cannot be accounted for by the preferential binding of available Mg(2+) to ATP(4-) rather than ADP(3-). It is concluded that the relative proportions of adenine nucleotides at any level of phosphorylation are only partly regulated by adenylate kinase.     

Changes in the energy state of tissues in spontaneously hypertensive rats]

The contents of adenine nucleotides (ATP, ADP, AMP), phosphocreatine (PCr) and creatine (Cr) in the heart, skeletal muscle, liver and spleen in spontaneously hypertensive (SHR) and normotensive (WKY) rats. The ATP/ADP ratio in cardiac tissue was lower in SHR compared with WKY, while myocardial contents of adenine nucleotides, PCr and Cr did not differ significantly between the groups. A lower ATP/ADP ratio in the skeletal muscle SHR of was accompanied by a reduction of PCr content comparing with these indices in WKY rats. The liver and spleen of SHR exhibited lower ATP contents and higher ADP and AMP levels compared with those ones in WKY rats, despite of the close values of adenine nucleotide pools (sigma AN = ATP + ADP + AMP). This redistribution of tissue adenine nucleotides was corresponded to lower energy charges (EC = (ATP + 0.5 ADP)/sigma AN) and ATP/ADP ratios in SHR group. The reduction of the energy state of tissues in SHR rats increased in the following rank: heart > skeletal muscle > liver > spleen, thus, reflecting progressive decrease of intensity of oxidative metabolism. The results suggest changes in the balance of rates of ATP formation and hydrolysis occur at the system level in primary hypertension. Probably, consequences of such rearrangement in energy metabolism are functional disturbances of plasma membrane and sacroplasmic reticulum well-documented in a number of experimental and clinical studies.     

Properties of phsophofructokinase from the mucosa of rat jejunum and the relation to the lack of Pasteur effect

1. The properties of phosphofructokinase after its slight purification from the mucosa of rat jejunum were studied. 2. The enzyme is inhibited by almost 100% by an excess of ATP (1.6mm), with 0.2mm-fructose 6-phosphate. AMP, ADP, P(i) and NH(4) (+) at 0.2, 0.76, 1.0 and 2mm respectively do not individually prevent the inhibition of phosphofructokinase activity by 1.6mm-ATP with 0.2mm-fructose 6-phosphate to any great extent, but all of them together completely prevent the inhibition of phosphofructokinase by ATP. 3. One of the effects of high concentrations of ATP on the enzyme was to increase enormously the apparent K(m) value for the other substrate fructose 6-phosphate, and this increase is largely counteracted by the presence of AMP, ADP, P(i) and NH(4) (+). At low concentrations of ATP the above effectors individually decrease the concentration of fructose 6-phosphate required for half-maximum velocity and when present together they decrease it further, in a more than additive way. 4. When fructose 6-phosphate is present at a saturating concentration (5mm), 0.3mm-NH(4) (+) increases the maximum velocity of the reaction 3.3-fold; with 0.5mm-fructose 6-phosphate, 4.5mm-NH(4) (+) is required for maximum effect. The other effectors do not change the maximum reaction velocity. 5. The results presented here suggest that NH(4) (+), AMP, ADP and P(i) synergistically decrease the inhibition of phosphofructokinase activity at high concentrations of ATP by decreasing the concentration of fructose 6-phosphate required for half-maximum velocity. Such synergism among the effectors and an observed, low ;energy charge' [(ATP+(1/2)ADP)/(AMP+ADP+ATP)] in conjunction with the possibility of a relatively high NH(4) (+) and fructose 6-phosphate concentration in this tissue, may keep the mucosal phosphofructokinase active and uninhibited by ATP under aerobic conditions, thus explaining the high rate of aerobic glycolysis and the lack of Pasteur effect in this tissue.     

Changes of gastric mucosal biochemistry in ethanol-treated rats with and without acute surgical vagotomy

The biochemical background of ethanol-(ETOH) induced gastric mucosal damage was studied in rats with intact vagus and after acute surgical vagotomy. Observations were carried out on Sprague-Dawley (CFY) strain rats of both sexes. Gastric mucosal lesions were produced by intragastric administration of 1 ml 96% ethanol. Bilateral truncal surgical vagotomy was carried out 30 min before ETOH administration. The number and severity of gastric mucosal lesions was noted 1 h after ETOH administration. Biochemical measurements (gastric mucosal level of ATP, ADP, AMP, cAMP and lactate) were carried out from the total homogenized gastric mucosa. The adenylate pool (ATP + ADP + AMP), energy charge ((ATP + 0.5 ADP)/(ATP + ADP + AMP)) and ratio of ATP/ADP were calculated. It was found that: 1) ATP transformation into ADP increased, while ATP transformation in cAMP decreased in ethanol-treated animals with intact vagus nerve, while these transformations were quite the opposite in vagotomized animals; 2) no significant changes were found in the tissue level of lactate: and 3) the extent of biochemical changes was significantly less after surgical vagotomy. It is concluded that an intact vagus is basically necessary for the metabolic adaptation of gastric mucosa.     

Effects of Temperature on Infected Cell O2 Concentration and Adenylate Levels in Attached Soybean Nodules

To assess the role of O2 in the regulation of nodule metabolism following a decrease or an increase in temperature, the fractional oxygenation of leghemoglobin (FOL) was measured in soybean (Glycine max L. Merr.) nodules during rapid and gradual changes in temperature from 20[deg]C to either 15 or 25[deg]C. The affinity of leghemoglobin for O2 was also measured at each temperature and the values were used to calculate the infected cell O2 concentration (Oi). After nodules were transferred to 15[deg]C, FOL and Oi increased and adenylate energy charge (AEC = [ATP + 0.5ADP]/[ATP + ADP + AMP]) increased from 0.70 to 0.78. The temperature increase was associated with a decrease in FOL and Oi. We concluded that changes in nodule temperature alter the respiratory demand of the nodules for O2, resulting in a change in Oi and a shift in the balance between ATP consumption and ATP production within the nodule tissue.     

Oxygen deficiency and its effect on the adenylate system in Acetobacter in the submerse acetic fermentation

Summary It is well known that Acetobacter is extremely sensitive in high total concentrations (GK)¹ of ethanol and acetic acid. In the acetator, at a total concentration (GK) of 13%, ATP pool and growth show reverse behaviour. During the stationary, acidifying phase, the extracellular adenylate concentration amounts to 70% of the total edenylate pool (AN=ATP+ADP+AMP). In this range, the average value of the intracellular energy charge [EC=(ATP+1/2ADP)/(ATP+ADP+AMP)] is 0.82.After 45 s of interruption of aeration, the EC of the total culture dropped to a value of 0.58. After several weeks of storage, the EC of the inoculum amounted to 0.50.     

ATP breakdown and resynthesis in the development of gastrointestinal mucosal damage and its prevention in animals and human (an overview of 25 years ulcer research studies).

The changes in membrane-bound ATP systems (breakdown and resynthesis) were analyzed in different experimental ulcer models (such as ETOH, HCl, NaOH, 25% NaCl-induced, pyloric ligated + epinephrine treated, stress, reserpine treated, indomethacin treated rat models) and chronic antral, duodenal and jejunal ulcers in patients. The energy system parameters (adenosine triphosphate (ATP), adenosine diphosphate (ADP), adenosine monophosphate (AMP), cyclic AMP (cAMP), lactate) were measured from different sites of gastrointestinal mucosa, and values of ATP/ADP, adenylate pool (ATP + ADP + AMP) and energy charge ((ATP + 0.5 ADP)/(ATP + ADP + AMP)) were calculated. The biochemical measurements were done at different times during the development of gastrointestinal mucosal lesions, without and with application of different drugs (PGI2, atropine, cimetidine) and bilateral surgical vagotomy. The aims of our present paper were: 1.) To summarize the main directions of ATP breakdown during the development of gastrointestinal lesions or ulcers in different experimental models and human beings: 2.) To summarize the biochemical steps of defense of gastrointestinal mucosa against chemicals, drugs or unknown pathogenic factors; 3.) To analyze the importance of membrane-bound ATP-dependent energy systems in order to understand the mucosal lesions and their prevention; 4.) To evaluate the real values of changes in these parameters from the point of view of ulcerogenesis and its prevention; 5.) To find some correlation between the energy parameters during mucosal damage and its prevention: 6.) To understand better the types of tissue reactions (metabolic) due to development of mucosal lesions and prevention.(ABSTRACT TRUNCATED AT 400 WORDS)     

Interrelationships between the membrane-bound ATP-dependent energy systems of the gastric mucosa and the gastric cytoprotective effect of beta-carotene on the development of gastric mucosal damage produced by 0.6 M HCl in rats

The effects of different doses (0.01-0.1-1.0-10.0/mg/kg-1) of beta-carotene were studied on gastric secretory responses of 4 hr pylorus-ligated rats: development of gastric mucosal damage (as assessed by number and severity of lesions) produced by intragastric administration of 0.6 M HCl; tissue level of adenosine triphosphate (ATP), adenosine diphosphate (ADP), adenosine monophosphate (AMP), adenylate pool (ATP + ADP + AMP), ratio of ATP X ADP-1, "energy charge" (ATP + 0.5 ADP X X (ATP + ADP + AMP)-1) (during the development of gastric mucosal damage by 0.6 M HCl and of gastric cytoprotection by beta-carotene. It was found that beta-carotene did not decrease the gastric secretory responses of 4 hr pylorus-ligated rats; The development of gastric mucosal damage could be decreased dose-dependently by the administration of beta-carotene; the ATP transformation could be decreased by beta-carotene; the tissue levels of cAMP and AMP could be increased significantly and dose-dependently by beta-carotene; the ratio of ATP X ADP-1 could be increased significantly and dose-dependently by beta-carotene; the values of adenylate pool and "energy charge" remained unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)     

Energy metabolism and lipid peroxidation of human erythrocytes as a function of increased oxidative stress.

To study the influence of oxidative stress on energy metabolism and lipid peroxidation in erythrocytes, cells were incubated with increasing concentrations (0.5-10 mM) of hydrogen peroxide for 1 h at 37 degrees C and the main substances of energy metabolism (ATP, AMP, GTP and IMP) and one index of lipid peroxidation (malondialdehyde) were determined by HPLC on cell extracts. Using the same incubation conditions, the activity of AMP-deaminase was also determined. Under nonhaemolysing conditions (at up to 4 mM H2O2), oxidative stress produced, starting from 1 mM H2O2, progressive ATP depletion and a net decrease in the intracellular sum of adenine nucleotides (ATP + ADP + AMP), which were not paralleled by AMP formation. Concomitantly, the IMP level increased by up to 20-fold with respect to the value determined in control erythrocytes, when cells were challenged with the highest nonhaemolysing H2O2 concentration (4 mM). Efflux of inosine, hypoxanthine, xanthine and uric acid towards the extracellular medium was observed. The metabolic imbalance of erythrocytes following oxidative stress was due to a dramatic and unexpected activation of AMP-deaminase (a twofold increase of activity with respect to controls) that was already evident at the lowest dose of H2O2 used; this enzymatic activity increased with increasing H2O2 in the medium, and reached its maximum at 4 mM H2O2-treated erythrocytes (10-fold higher activity than controls). Generation of malondialdehyde was strictly related to the dose of H2O2, being detectable at the lowest H2O2 concentration and increasing without appreciable haemolysis up to 4 mM H2O2. Besides demonstrating a close relationship between lipid peroxidation and haemolysis, these data suggest that glycolytic enzymes are moderately affected by oxygen radical action and strongly indicate, in the change of AMP-deaminase activity, a highly sensitive enzymatic site responsible for a profound modification of erythrocyte energy metabolism during oxidative stress.     

Luminometric assays of ATP, phosphocreatine, and creatine for estimation of free ADP and free AMP.

We present methods to measure ATP, phosphocreatine, and total creatine (the sum of creatine and phosphocreatine) in alkaline cell extracts. Knowledge of these parameters, together with the known equilibrium constants for the creatine kinase and adenylate kinase-catalyzed reactions, allows one to estimate the levels of free ADP and free AMP inside cells. The enzymatic assays for the above-mentioned metabolites all lead up to the production of ATP, which is measured luminometrically with the ATP-dependent oxidation of luciferin catalyzed by firefly luciferase. To determine phosphocreatine, endogenous ATP is first destroyed, and phosphocreatine is then quantitatively reacted with exogenous ADP to form ATP. Total creatine is measured after quantitative conversion of creatine to phosphocreatine with a large excess of exogenous ATP, conversion of all ATP to ADP, and final reaction of phosphocreatine with ADP to form ATP. We used 5-microl samples in 0.5-ml microcentrifuge tubes and subsequent 5-microl additions of analytical reagents. We expect that the volumes can be changed easily. We tested the methods with glucagon- and insulin-secreting cells. Estimates of free ADP and AMP are expected to be useful in many different areas of research, such as cellular energy metabolism, purine nucleotide metabolism, adenine nucleotide gating of ion channels, and release of vasoactive or angiogenic factors.     

Energy aspects of the growth of Escherichia coli synchronized by starvation

The quantitative determination of adenyl nucleotides based on the separation of their dansyl derivatives by thin layer chromatography has made it possible to study the dynamics of changes in the pool of ATP, ADP and AMP in Escherichia coli K-12 during its synchronous growth after glucose starvation. The energy parameters (the adenylate pool, energy charge, teh ATP/ADP ratio, the rates of oxygen uptake and ATP generation, the economic coefficients of oxygen and ATP utilization) were compared with changes in the growth characteristics (the rate of growth and biomass concentration). This comparison allowed the authors to draw the conclusion about the uncoupled constructive and energy metabolism and about the possible regulatory role of energy parameters in the synchronised culture growth.     

Control of chlorophyll synthesis in Chromatium vinosum

Summary The role of adenine nucleotides in the control of the energy metabolism of Chromatium has been studied through the measurement of the levels of ATP ADP, and AMP in growing cultures. Comparison of these levels with the cellular chlorophyll levels indicates that ATP concentration, and not those of ADP, AMP, or any function of concentration of these three nucleotides, is a controlling factor in chlorophyll synthesis. In addition, the relationship of cellular ATP and chlorophyll levels to sulfur metabolism furnishes further evidence for the existence of two photosystems, postulated previously. The effects of high levels of exogenous ATP and ADP are consistent with these findings.     

The relationship between constitutive ATP release and its extracellular metabolism in isolated rat kidney glomeruli.

ATP and adenosine are important extracellular regulators of glomerular functions. In this study, ATP release from glomeruli suspension and its extracellular metabolism were investigated. Basal extraglomerular ATP concentration (1nM) increased several fold during inhibition of ecto-ATPase activity, reflecting the basal ATP release rate. Mechanical perturbation increased the amounts of ATP released from glomeruli. ATP added to glomeruli was almost completely degraded within 20 minutes. In that time, AMP was the main product of extracellular ATP metabolism. Significant accumulation of AMP was observed after 5 min (194 +/-16 microM) and 20 min (271 +/-11 microM), whereas at the same time concentration of adenosine was only 10 muM. A competitive inhibitor of ecto-5-nucleotidase alpha-beta-methylene-ADP (AOPCP), decreased extraglomerular ATP and adenosine concentration by 80% and 50%, respectively. Similarly, AMP (100 microM) also markedly reduced extraglomerular ATP accumulation, whereas IMP, its deamination product, was not effective. P1, P5-diadenosine pentaphosphate (Ap5A) - an inhibitor of ecto-adenylate kinase prevented significantly the disappearance of ATP from extraglomerular media caused by AMP. These findings demonstrate that the decrease in extracellular ATP concentration observed after addition of AOPCP or AMP is caused by the presence of ecto-adenylate kinase activity in the glomeruli. The enzyme catalyses reversible reaction 2ADP<->ATP+AMP, and a rise in the AMP concentration can lead to fall in ATP level. The present study provides evidence the extraglomerular accumulation of ATP reflects both release of ATP from glomeruli cells and its metabolism by ecto-enzymes. Our data suggest that AMP, produced from ATP in the Bowman's capsular space, might plays a dual role as a substrate for ecto-adenylate kinase and ecto-nucleotidase reactions being responsible for the regulation of intracapsular ATP and adenosine concentration. We conclude that AMP degrading and converting ecto-enzymes effectively determine the balance between ATP and adenosine concentration and thus the activation of P2 and/or adenosine receptors.     

Regulation of the mitochondrial adenine nucleotide pool size in liver: mechanism and metabolic role

The ATP-Mg/Pi carrier in liver mitochondria can catalyze the exchange of ATP-Mg on one side of the inner membrane for Pi on the other. This mechanism allows for net uptake or release of ATP-Mg from mitochondria and thus regulates the matrix ATP + ADP + AMP pool size. In isolated mitochondria, carrier activity is stimulated by submicromolar concentrations of calcium, suggesting that calcium may regulate transport rates in vivo. Whenever the carrier is active, the direction of any net changes in the matrix adenine nucleotide pool size is determined mainly by the extent to which the prevailing ATP-Mg concentration gradient deviates from an equilibrium related to delta pH through the phosphate concentration gradient. Thus it seems that in the cell, energy status (reflected by ATP:ADP ratios in the cytoplasm and matrix) determines whether calcium-mediated hormone activation of the carrier will produce an increase or a decrease in the matrix adenine nucleotide content. Consequent variations in the absolute concentrations of ATP, ADP, and AMP in the matrix may contribute to the selective regulation of those metabolic activities in the cell that have adenine nucleotide dependent steps localized to the mitochondrial compartment (gluconeogenesis, urea synthesis, mitochondrial biogenesis, and even oxidative phosphorylation).     

Short term cadmium intoxication of the shrimp Palaemon serratus: Effect on adenylate metabolism

• 1.1. Shrimps were exposed for 96 hr to various concentrations of cadmium under laboratory conditions. The LC₅₀ was around 4 ppm Cd in water, which corresponded to 0.180 μg/g wet weight of cadmium in tail muscles.
• 2.2. The effect of various concentrations of cadmium on adenylates was analyzed in tail muscles: At subletal cadmium concentrations, no variation of ATP, ADP and of the adenylate sum occurred, while the AMP concentration began to decrease from 0.06 ppm.

At the LC₅₀, the ATP, ADP and AMP concentrations dropped acutely, the ATP/ADP ratio increased acutely.The apparent equilibrium constant of the adenylate kinase reaction increased significantly from 2 ppm Cd, indicating an impairment in energetic metabolism.Cadmium intoxication did not influence the value of the adenylate energy charge.     

A rapid method for measuring ATP + ADP + AMP in marine sediment

In this report, I describe a method for rapid measurement of total adenylate (ATP + ADP + AMP) in marine sediment samples for estimating microbial biomass. A simple ‘boil and dilute’ method is described here, whereby adding boiled MilliQ water to sediments increases the detection limit for ATP + ADP + AMP up to 100-fold. The lowered detection limit of this method enabled the detection ATP + ADP + AMP in relatively low-biomass sub-seafloor sediment cores with 10⁴ 16S rRNA gene copies per gram. Concentrations of ATP + ADP + AMP correlated with 16S rRNA gene concentrations from bacteria and archaea across six different sites that range in water depth from 1 to 6000 m indicating that the ATP + ADP + AMP method can be used as an additional biomass proxy. In deep sea microbial communities, the ratio of ATP + ADP + AMP concentrations to 16S rRNA genes >1 m below seafloor was significantly lower compared to communities in the upper 30 cm of sediment, which may be due to reduced cell sizes and or lower ATP + ADP + AMP concentrations per cell in the deep sea sub-seafloor biosphere. The boil and dilute method for ATP + ADP + AMP is demonstrated here to have a detection limit sufficient for measuring low biomass communities from deep sea sub-seafloor cores. The method can be applied to frozen samples, enabling measurements of ATP + ADP + AMP from frozen sediment cores stored in core repositories from past and future international drilling campaigns.     

A CBS domain-containing pyrophosphatase of Moorella thermoacetica is regulated by adenine nucleotides

CBS (cystathionine beta-synthase) domains are found in proteins from all kingdoms of life, and point mutations in these domains are responsible for a variety of hereditary diseases in humans; however, the functions of CBS domains are not well understood. In the present study, we cloned, expressed in Escherichia coli, and characterized a family II PPase (inorganic pyrophosphatase) from Moorella thermoacetica (mtCBS-PPase) that has a pair of tandem 60-amino-acid CBS domains within its N-terminal domain. Because mtCBS-PPase is a dimer and requires transition metal ions (Co2+ or Mn2+) for activity, it resembles common family II PPases, which lack CBS domains. The mtCBS-PPase, however, has lower activity than common family II PPases, is potently inhibited by ADP and AMP, and is activated up to 1.6-fold by ATP. Inhibition by AMP is competitive, whereas inhibition by ADP and activation by ATP are both of mixed types. The nucleotides are effective at nanomolar (ADP) or micromolar concentrations (AMP and ATP) and appear to compete for the same site on the enzyme. The nucleotide-binding affinities are thus 100-10000-fold higher than for other CBS-domain-containing proteins. Interestingly, genes encoding CBS-PPase occur most frequently in bacteria that have a membrane-bound H+-translocating PPase with a comparable PP(i)-hydrolysing activity. Our results suggest that soluble nucleotide-regulated PPases act as amplifiers of metabolism in bacteria by enhancing or suppressing ATP production and biosynthetic reactions at high and low [ATP]/([AMP]+[ADP]) ratios respectively.     

Regulation of steady-state free Ca2+ levels by the ATP/ADP ratio and orthophosphate in permeabilized RINm5F insulinoma cells

Stimulation of insulin secretion in the pancreatic beta-cell by a fuel such as glucose requires the metabolism of the fuel and is accompanied by increases in oxygen consumption and intracellular free Ca2+. A very early signal for these events could be a decrease in the cytosolic ATP/ADP ratio due to fuel phosphorylation. To test this hypothesis the regulation of free Ca2+ was evaluated in permeabilized RINm5F insulinoma cells that sequester Ca2+ and maintain a low medium free Ca2+ concentration (set point), between 100 and 200 nM, in the presence of Mg2+ and ATP. ATP, creatine, creatine phosphate, and creatine phosphokinase were added to the media to achieve various constant ratios of ATP/ADP. Free Ca2 was monitored using fura-2. The results demonstrated that the steady-state free Ca2+ concentration varied inversely with the ATP/ADP ratio and orthophosphate (Pi) levels. In contrast, no correlation between free Ca2+ and the phosphorylation potential (ATP/ADP.Pi) was found. Regulation of the Ca2+ set point by the ATP/ADP ratio was observed at ratios between 5 and 50 and at Pi concentrations between 1 and 7 mM, irrespective of whether mitochondria were participating in Ca2+ sequestration or were inhibited. Increasing the ATP/ADP ratio stimulated Ca2+ uptake by the nonmitochondrial pool but did not modify Ca2+ efflux. Glucose 6-phosphate (1 mM) had no effect on the Ca2+ set point. The data suggest that variations in the cytosolic ATP/ADP ratio induced by fuel stimuli may regulate Ca2+ cycling across nonmitochondrial compartments and the plasma membrane by modulating the activity of Ca2+ -ATPases. A mechanism linking fuel metabolism and cytosolic ATP/ADP ratio to activation of the Ca2+ messenger system in pancreatic beta-cells is proposed.