Reversal of ethionine-induced growth inhibition of Escherichia coli by adenosine triphosphate

Ethionine-induced inhibition of growth of E. coli has been measured. In the presence of 10 mMl-ethionine this inhibition amounts to about 55% and is readily reversed by methionine. ATP (7.5–10 mM) also reverses the ethionine-induced inhibition of growth.It has been shown previously that ATP counteracts ethionine-induced inhibition of growth in animals and plants. ATP as well as l-methionine has now been found to reverse the ethionine-induced growth inhibition of E. coli.     

Depletion and recovery of ATP in V79 cells with exposure to inhibitors of glycolysis and oxidative phosphorylation

Summary Cells of the cultured hamster cell line V79 were labeled with tritiated adenosine and incubated for up to 30 min in the presence of inhibitors of glycolysis and oxidative phosphorylation. These inhibitors were (a) 5 mM KCN plus 5 mM iodoacetate, (b) 5 mM KCN plus 5 mM KF, and (c) 15 mM KCN plus 15 mM KF. The fate of the tritium label was examined during incubation with inhibitors and also during subsequent incubation in growth medium in the absence of inhibitors. The tritiated ATP pool was found to decrease in cells incubated in the presence of any of the inhibitor combinations, but only in the presence of 15 mM KCN plus 15 mM KF was this pool decreased below the level of detection. After cells were incubated with KCN plus KF, a high level of ATP was recovered when the inhibitors were removed. Cells incubated with KCN plus iodoacetate retained depletion levels of ATP. Plating efficiency and trypan blue staining showed that KCN-KF treated cells retained viability, whereas KCN-iodoacetate treated cells did not. Cells were examined for ability to take up tritiated uridine before, during, and after depletion of ATP by incubation in the presence of 15 mM KCN plus 15 mM KF. These cells were found to have a variation in uridine uptake that was related directly to intracellular ATP level. Cells in which the ATP was very low exhibited little or no uridine uptake, whereas cells in which the ATP level was near normal exhibited normal uridine uptake. This work was supported in part by Grant GM24271 from the National Institutes of Health, Bethesda, Maryland.     

Effects of a short-term p-hydroxybenzoic acid application on grain yield and yield components in different tiller categories of spring barley

The aim of these experiments was to evaluate how thresholds for phytotoxic substances obtained in seedling bioassays relate to yield losses or changes in yield components of mature barley crops after a short-term exposure to p-hydroxybenzoic acid. Under laboratory conditions a treatment with 1.81 mM p-hydroxybenzoic acid significantly reduced the radicle length of barley, whereas coleoptile elongation was less sensitive. The inhibition of the radicle length and coleoptile elongation was greater if the pH of the test solution was not buffered at pH 5.5. In a glasshouse trial the effect of p-hydroxybenzoic acid on the radicle and coleoptile elongation of spring barley was compared with the yield response after a three day exposure either during germination or at the double ridge stage of apex development. Applications of 0.72 mM, 1.44 mM and 3.62 mM p-hydroxybenzoic acid averaged over the treatments during germination or at the double ridge stage of development caused a yield reduction in the single ear weight of 5%, 13% and 19% in comparison with the control, respectively. The higher tiller categories in general showed a greater sensitivity towards an application of p-hydroxybenzoic acid and, therefore, could not compensate for the yield decrease of the main stem tiller. A single application of p-hydroxybenzoic acid either at germination or at the double ridge stage may cause yield losses, as reported from no-till systems or cereal monocultures. The data have implications for the interpretation of seedlings bioassays in allelopathic research and their applicability in estimating yield losses caused by phytotoxic substances. ei]Section editor: R Merckx     

Purification and characterization of benzoyl-CoA ligase from a syntrophic,benzoate-degrading,anaerobic mixed culture

Summary The benzoyl-CoA ligase from an anaerobic syntrophic culture was purified to homogeneity. It had a molecular mass of around 420 kDa and consisted of seven or eight subunits of 58 kDa. The temperature optimum was 37–40° C, the optimum pH around 8.0 and optimal activity required 50–100 mM TRIS-HCI buffer, pH 8.0 and 3–7 mM MgCl₂; MgCl₂ in excess of 10 mM was inhibitory. The activation energy for benzoate was 11.3 kcal/mol. Although growth occured only with benzoate as a carbon source, the benzoyl-coenzyme A (CoA) ligase formed benzoyl-CoA esters with benzoate, 2-, 3- and 4-fluorobenzoate, picolinate, nicotinate and isonicotinate. Acetate was activated to acetyl-CoA by an acetyl-CoA synthetase. The K _m values for benzoate, 2-, 3- and 4-fluorobenzoate were 0.04, 0.28, 1.48 and 0.32 mM, the V _max values 1.05, 1.0, 0.7 and 0.98 units (U)/mg, respectively. For reduced CoA (CoA-SH) a K _m of 0.17 mM and a V _max of 1.05 U/mg and for ATP a K _m of 0.16 mM and a V _max of 1.08 U/mg was determined. Benzoate activation was inhibited by more than 6 mM ATP, presumably by pyrophosphate generation from ATP. The inhibition constant (K _i) for pyrophosphate was 5.7 mM. No homology of the N-terminal amino acid sequence with that of a 2-aminobenzoyl-CoA ligase of a denitrifying Pseudomonas sp. was found. Correspondence to: J. Winter     

Sister chromatid exchange in immature haemopoietic cells,T-and B-lymphocytes

Summary Human lymphocytes from 18 healthy adults were cultured in minimal essential medium without folic acid. The addition of 4mM cytidine or 1 mM guanosine to cultures 24h prior to harvest produced a statistically significant increase in hot point 3p14 breaks. An excess of 3mM adenosine or thymidine had no such effect on the hot point. The mechanism of the effects of nucleosides on hot points was discussed.     

Intrasynaptosomal Free Mg2+ Concentration Measured with the Fluorescent Indicator Mag-Fura-2: Modulation by Na+ Gradient and by Extrasynaptosomal ATP

Abstract: Synaptosomes can be loaded with mag-fura-2 without significant perturbation of their ATP content by incubation for 10 min at 37°C with 10 µM mag-fura-2 acetoxymethyl ester in Hanks'-HEPES buffer (pH 7.45). The intrasynaptosomal free Mg²⁺ concentration ([Mg²⁺]_i) was found to be dependent on external Mg²⁺ concentration, increasing from 0.8 to 1.25 mM when the concentration of Mg²⁺ in the incubation medium increased from 1 to 8 mM. Dissipation of the Na⁺ gradient across the plasma membrane of synaptosomes by treatment with the Na⁺ ionophore monensin (0.2 mM) or with veratridine (0.2 mM) and ouabain (0.6 mM) produced a moderate increase of [Mg²⁺]_i, from 1.0 to 1.2–1.3 mM in an incubation medium containing 5 mM Mg²⁺. Plasma membrane depolarization by incubation of synaptosomes in a medium containing 68 mM KCl and 68 mM NaCl had no effect on [Mg²⁺]_i. Reversal of the Na⁺ gradient by incubation of synaptosomes in a medium in which external Na⁺ was replaced by choline increased [Mg²⁺]_i up to 1.6 and 2.2 mM for extrasynaptosomal Mg²⁺ concentrations of 1 and 8 mM, respectively. We conclude that a Na⁺/Mg²⁺ exchange operates in the plasma membrane of synaptosomes. In the presence of Mg²⁺ in the incubation medium, extrasynaptosomal ATP, but not ADP or adenosine, increased [Mg²⁺]_i from 1.1 ± 0.1 up to 1.6 ± 0.1 mM. The nonhydrolyzable ATP analogue adenosine 5′-(βγ-imido)triphosphate antagonized the effect of ATP, but had no effect by itself on [Mg²⁺]_i. It is concluded that Mg²⁺ transport across the plasma membrane of synaptosomes is modulated by the activity of an ecto-ATPase or an ecto-protein kinase.     

The effects of soluble-Al on root growth and radicle elongation

Summary In order to determine the effects of concentration on plant growth, aluminium (Al) was extracted (10^–3 M CaCl₂) from 4 acid brown hill soils which had been treated with superphosphate at rates equivalent to 0 to 300 kg P ha^–1. The soils ranged in pH (CaCl₂) from 3.5 to 4.9, and Al concentration from 0 to 0.6 mM. The effects of Al on ryegrass growth in the 4 soils in a glasshouse was compared with its effect on radicle elongation of seeds germinated in contact with CaCl₂ extracts from the same soils.Ryegrass root growth in the glasshouse, and radicle elongation in the bioassay test were both unaffected by Al concentrations below 0.1 mM. Root growth was substantially reduced when Al concentration exceeded 0.1 mM and above 0.2 mM growth was almost completely inhibited. Radicle elongation rate was also reduced when the concentration of Al was greater than 0.2 mM agreeing well with the observation from the pot experiment.It is concluded that because of its speed and convenience the bioassay method offers a useful method of establishing critical levels of Al for crop plants.     

Stimulation of ATP synthesis in hypothermically perfused dog kidneys by adenosine and PO4

During continuous hypothermic perfusion of dog kidneys there occurs a gradual decrease in ATP from about 1.4 to 0.6 μmol/g wet wt after 5 days of preservation. The loss of ATP can be prevented by including both adenosine (10 mM) and PO₄ (25 mM) in the perfusate. Under these conditions kidney cortex ATP levels were more than double control values — 3.5 μmol/g wet wt. Both adenosine and PO₄ were necessary since omission of one substance resulted in no net synthesis of ATP. Furthermore, these high levels of ATP were obtained only if adequate concentrations of adenosine were maintained during perfusion. Following 3 days of perfusion the adenosine level in the perfusate decreased to about 1 mM and under this condition ATP levels were low. Adenosine levels were maintained in the perfusate by two methods: (1) addition of fresh perfusate or (2) pretreatment of the kidney with the adenosine deaminase inhibitor—deoxycoformycin. The increased levels of ATP appear directly related to the availability of nucleotide precursors and the presence of inhibitors of the enzymes involved in the catabolism of nucleotides and nucleosides (PO₄ and deoxycoformycin). Mitochondrial activity was similar in kidneys with high or low ATP levels following 5 days of preservation.     

Detection of soluble immune complexes by their binding to Fc receptors on mastocytoma cells

Adenosine kinase activity in in vitro human peripheral blood monocyte and human pulmonary alveolar macrophage cultures undergoes significant increases, 3- to 10-fold, in both total and specific activity during 14 days culture. Increased activity in monocyte cultures was not detected during the first 3 days of culture. Adenosine kinase activity in both mononuclear phagocyte cell cultures had a pH optimum at 6.0 and activity was dependent on the concentration of ATP and magnesium; 5 mM ATP and 2.5 mM MgCl were optimal. Increased concentrations of ATP or magnesium were inhibitory. Both dATP and GTP served as phosphate donors in the absence of ATP; in contrast, pyrimidine triphosphates were poor donors. Enzyme activity was inhibited by 1 μM p-chloromercuribenzoate and substrate inhibition by excess adenosine was observed in 2-week pulmonary alveolar macrophage cultures but not in freshly isolated cells. The role of increased adenosine kinase activity in in vitro monocyte-macrophage differentiation is considered.     

Propentofylline and Other Adenosine Transport Inhibitors Increase the Efflux of Adenosine Following Electrical or Metabolic Stimulation of Rat Hippocampal Slices

Abstract: Propentofylline is a novel neuroprotective agent that has been shown to act as an adenosine transport inhibitor as well as an adenosine receptor antagonist. In the present series of experiments we have compared the effects of propentofylline with those of known adenosine transport inhibitors and receptor antagonists on the formation of adenosine in rat hippocampal slices. The ATP stores were labeled by incubating the slices with [³H]-adenine. The total ³H overflow and the overflow of endogenous and ³H-labeled adenosine, inosine, and hypoxanthine were measured. Adenosine release, secondary to ATP breakdown, was induced both by hypoxia/hypoglycemia and by electrical field stimulation. Propentofylline (20–500 µM) increased the release of endogenous and radiolabeled adenosine, without increasing the total release of purines. Thus, the drug altered the pattern of released purines, i.e., increasing adenosine and decreasing inosine and hypoxanthine. This pattern, which was observed when purine release was induced both by electrical field stimulation and by hypoxia/hypoglycemia, was shared by the nucleoside transport inhibitor dipyridamole (1 µM) and by mioflazine (1 µM) and nitrobenzylthioinosine (1 µM). By contrast, other xanthines, including theophylline (100 µM) and 8-cyclopentyltheophylline (10 µM), enprofylline (100 µM), or torbafylline (300 µM), if anything, increased the total release of purines without alterations of the pattern of release. These results indicate that nucleoside transport inhibitors can decrease the release of purines from cells and at the same time increase the concentration of extracellular adenosine, possibly by preventing its uptake and subsequent metabolism. This change in purine metabolism may be beneficial with regard to cell damage after ischemia. The results also indicate that propentofylline behaves in such a potentially beneficial manner.     

Inhibition of Lettuce Seed Germination and Root Elongation by Derivatives of Auxin and Reversal by Derivatives of Cycocel

Lettuce seed germination or lettuce root elongation after germination in water was inhibited by 5.7 × 10^-6M indoleacetic acid (IAA) and designated other IAA derivatives. These IAA-inhibited growth responses were reversed by 10^-5 to 10^-6M Cycocel, (2-chloroethyl) trimethylammonium chloride, which alone was without effect. Only those Cycocel analogs, which have previously been shown to be active as plant growth retardants, were effective in reversing IAA inhibition of germination or root elongation. These results are consistent with the concept that Cycocel at low concentrations acts as an auxin antagonist. However. Cycocel did not reverse the inhibitory effects from indole-3-propionic acid or indole-3-butyric acid.     

Irreversible inhibition of human natural killer cell natural cytotoxicity by modification of the extracellular membrane by the adenine nucleotide analog 5′-p-(fluorosulfonyl)benzoyl adenosine

Extracellular adenine nucleotides are inhibitors of the human natural killer cell line NK3.3 natural cytotoxicity activity. Natural cytotoxicity was inhibited approximately 26% by 1 mM ATP and 21% by 1 mM ADP. 5′-Adenylyl imidodiphosphate, a nonhydrolyzable ATP analog, inhibited natural cytotoxicity by 41% at a concentration of 1 mM and > 97% at a concentration of 10 mM. In contrast, AMP was not inhibitory. Adenosine was a weak inhibitor of natural cytotoxicity and may represent an alternate regulatory pathway. Removal of the nucleotides resulted in the restoration of control levels of natural cytotoxicity activity. The affinity label 5′-p-(fluorosulfonyl)benzoyladenosine (5′-FSBA) is a synthetic analog of ATP or ADP containing an electrophilic fluorosulfonyl group capable of covalently modifying proteins at adenine di- and triphosphate nucleotide-binding sites. Natural cytotoxicity was irreversibly inhibited by modification of the extracellular membrane of NK3.3 cells by 5′-FSBA. This inhibition was concentration dependent with an I₅₀ ∼ 100 μM and complete inhibition at 1 mM. Modification of NK3.3 by 5′-FSBA did not affect the formation of effector—target cell conjugates; however, granule release was inhibited. This targets the site of inhibition by 5′-FSBA modification to a pathway preceding granule release. Irreversible, covalent modification of surface adenine nucleotide-binding proteins by 5′-FSBA provides a probe to study the role of specific adenine nucleotide-binding proteins in the extracellular regulation of natural killer cytolytic activity by adenine nucleotides.     

Possible regulation of pyruvate carboxylase fromThiobacillus novellus by hydroxypyruvate

Aspartate, glutamate, or dicarboxylic acids did not inhibit the activity of a highly purified but not homogeneous preparation of pyruvate carboxylase fromThiobacillus novellus. The only effective inhibitors were end-products of the reaction and to a lesser degree hydroxypyruvate. The latter has not been shown previously to regulate the enzyme's activity. Lineweaver-Burk plots revealed that it was uncompetitive with respect to acetyl CoA with a K_ii of 3.6 mM, and noncompetitive with respect to bicarbonate, magnesium ATP, and pyruvate with respective K_ii values of 7.1, 5.5, and 6.47 mM. The corresponding K_is values were 7.02, 5.4, and 4.25 mM. A mathematical model is presented that supports the findings.     

Nitrate enhancement of CAM activity in two Kalanchoë species is associated with increased vacuolar proton transport capacity

Among species that perform CAM photosynthesis, members of the genus Kalanchoë have been studied frequently to investigate the effect of environmental factors on the magnitude of CAM activity. In particular, different nitrogen sources have been shown to influence the rate of nocturnal CO₂ fixation and organic‐acid accumulation in several species of Kalanchoë. However, there has been little investigation of the interrelationship between nitrogen source (nitrate versus ammonium), concentration and the activity of the vacuolar proton pumps responsible for driving nocturnal organic‐acid accumulation in these species. In the present study with Kalanchoë laxiflora and Kalanchoë delagoensis cultivated on different nitrogen sources, both species were found to show highest total nocturnal organic‐acid accumulation and highest rates of ATP‐ and PPi‐dependent vacuolar proton transport on 2.5 mM nitrate, whereas plants cultivated on 5.0 mM ammonium showed the lowest values. In both species malate was the principal organic‐acid accumulated during the night, but the second‐most accumulated organic‐acid was fumarate for K. laxiflora and citrate for K. delagoensis. Higher ATP‐ and PPi‐dependent vacuolar proton transport rates and greater nocturnal acid accumulation were observed in K. delagoensis compared with K. laxiflora. These results show that the effect of nitrogen source on CAM activity in Kalanchoë species is reflected in corresponding differences in activity of the tonoplast proton pumps responsible for driving sequestration of these acids in the vacuole of CAM‐performing cells.     

Pathways of adenine nucleotide catabolism in primary rat muscle cultures

The pathways of AMP degradation and the metabolic fate of adenosine were studied in cultured myotubes under physiological conditions and during artificially induced enhanced degradation of ATP. The metabolic pathways were gauged by tracing the flow of radioactivity from ATP, prelabelled by incubation of the cultures with [¹⁴C]adenine, into the various purine derivatives. The fractional flow from AMP to inosine through adenosine was estimated by the use of the adenosine deaminase (EC 3.5.4.4) inhibitors, coformycin and 2′-deoxycoformycin. The activities of the enzymes involved with AMP and adenosine metabolism were determined flow of label from ATP to diffusible bases and nucleosides, most of which are effluxed to the incubation medium. This catabolic flow is mediated almost exclusively by the activity of AMP deaminase (EC 3.5.4.6), rather than by AMP 5′-nucleotidase (EC 3.1.3.5), reflecting the markedly higher V_max/K_m ratio for the deaminase. Enhancement of ATP degradation by inhibition of glycolysis or by combined inhibition of glycolysis and of electron transport resulted in a markedly greater flux of label from adenine nucleotides to nucleosides and bases, but did not alter significantly the ratio between AMP deamination and AMP dephosphorylation, which remained around 19:1. Combined inhibition of glycolysis and of electron transport resulted, in addition, in accumulation of label in IMP, reaching about 20% of total AMP degraded. In the intact myotubes at low adenosine concentration, the anabolic activity of adenosine kinase was at least 4.9-fold the catabolic activity of adenosine deaminase, in accord with the markedly higher V_max/K_m ratio of the kinase for adenosine. The results indicate the operation in the myotube cultures, under various rates of ATP degradation, of the AMP to IMP limb of the purine nucleotide cycle. On the other hand, the formation of purine bases and nucleosides, representing the majority of degraded ATP, indicates inefficient activity of the IMP to AMP limb of the cycle, as well as inefficient salvage of hypoxanthine under these conditions.     

Evidence of morphology-specific isozymes inCandida albicans

S-Adenosylmethionine (SAM) synthetase of yeast and hyphal-phase cells of the dimorphic fungusCandida albicans was characterized by kinetic analysis and response to inhibitors. The enzyme from yeast-phase cells has a Km of 0.17 mM for methionine, 0.14 mM for ATP, and is inhibited (in vitro) by dimethyl-sulfoxide, methionine sulfone, and methionine sulfoxide. The hyphal-phase SAM synthetase has a Km of 0.06 mM for methionine, 0.02 mM for ATP, and its activity (in vitro) is enhanced by the substances that inhibit the yeast-phase enzyme. These data strongly suggest that isozymes of SAM synthetase are present inC. albicans and that they are possibly morphology specific. In vivo studies revealed that synthesis of the enzyme is repressed by the addition of methionine to the growth medium and that specific activity of the enzyme increases when intracellular SAM levels are lowered. In addition, it was shown that the increase in specific activity seen during yeast hypha morphogenesis and in yeast cells grown in a methionine-free medium involves de novo protein synthesis.     

ADENOSINE UPTAKE BY CHOLINERGIC SYNAPTOSOMES FROM TORPEDO ELECTRIC ORGAN

Pure cholinergic synaptosomes prepared from the electric organ of Torpedo are able to take adenosine up efficiently and convert it to ATP. The apparent K_m of the adenosine uptake is 2.4 μM and the V_m: 518 pmol/30′/mg prot. The uptake system exhibits a high specificity towards adenosine, as shown by the lack of competition with analogues. Tubercidin blocks the uptake competitively and dipyridamole is a very potent non competitive inhibitor (K_i= 4 × 10^-8 M). Considering that during nerve activity ATP is released extracellularly and can modulate transmitter release, the physiological significance of adenosine uptake is discussed as a possible mechanism to terminate the ATP action.     

Simultaneous detection of nucleotides, nucleosides and oxidative metabolites in myocardial biopsies

A new simple, simultaneous matrix HPLC methodology was developed to facilitate better peak separability and resolution for the determination of levels of myocardial tissue nucleotides, nucleosides and oxidative metabolites. The components of interests were ATP, AMP, ADP, IMP, hypoxanthine, xanthine, adenosine, inosine, NAD, and NADH, which are used to establish myocardial cellular energy status and effectiveness of cardioprotection. Their detection was achieved using a 4-μm spherical bead, 300 × 3.9 mm I.D. Nova-Pak C₁₈ column in a 12% methanol mobile phase solvent selection, ion-pairing reagents 1.47 mM TBAP (tetrabutylammonium phosphate) and 73.5 mM KH₂PO₄, at a pH of 4.0. The extraction method was modified for rapid determination to ensure diminished acid labile NADH effects. Comparisons of peak retention (k), resolution (R_s) of solvents of varying concentrations and pH adjustments facilitated this method. This isocratic single run determination allows for simple, simultaneous rapid quantification and identification of alterations in high-energy phosphates, nucleoside degradation products and NAD/NADH levels associated with myocardial ischemia, with excellent reliability.     

ATP and NO dually control migration of microglia to nerve lesions

Microglia migrate rapidly to lesions in the central nervous system (CNS), presumably in response to chemoattractants including ATP released directly or indirectly by the injury. Previous work on the leech has shown that nitric oxide (NO), generated at the lesion, is both a stop signal for microglia at the lesion and crucial for their directed migration from hundreds of micrometers away within the nerve cord, perhaps mediated by a soluble guanylate cyclase (sGC). In this study, application of 100 μM ATP caused maximal movement of microglia in leech nerve cords. The nucleotides ADP, UTP, and the nonhydrolyzable ATP analog AMP‐PNP (adenyl‐5′‐yl imidodiphosphate) also caused movement, whereas AMP, cAMP, and adenosine were without effect. Both movement in ATP and migration after injury were slowed by 50 μM reactive blue 2 (RB2), an antagonist of purinergic receptors, without influencing the direction of movement. This contrasted with the effect of the NO scavenger cPTIO (2‐(4‐carboxyphenyl)‐4,4,5,5‐teramethylimidazoline‐oxyl‐3‐oxide), which misdirected movement when applied at 1 mM. The cPTIO reduced cGMP immunoreactivity without changing the immunoreactivity of eNOS (endothelial nitric oxide synthase), which accompanies increased NOS activity after nerve cord injury, consistent with involvement of sGC. Moreover, the sGC‐specific inhibitor LY83583 applied at 50 μM had a similar effect, in agreement with previous results with methylene blue. Taken together, the experiments support the hypothesis that ATP released directly or indirectly by injury activates microglia to move, whereas NO that activates sGC directs migration of microglia to CNS lesions. © 2008 Wiley Periodicals, Inc. Develop Neurobiol, 2009     

Two Distinct P2 Purinergic Receptors, P2Y and P2U, Are Coupled to Phospholipase C in Mouse Pineal Gland Tumor Cells

Abstract: We found that extracellular ATP can increase the intracellular Ca²⁺ concentration ([Ca²⁺]_i) in mouse pineal gland tumor (PGT-β) cells. Studies of the [Ca²⁺]_i rise using nucleotides and ATP analogues established the following potency order: ATP, adenosine 5′-O-(3-thiotriphosphate) ≥ UTP > 2-chloro-ATP > 3′-O-(4-benzoyl)benzoyl ATP, GTP ≥ 2-methylthio ATP, adenosine 5′-O-(2-thiodiphosphate) (ADPβS) > CTP. AMP, adenosine, α,β-methyleneadenosine 5′-triphosphate, β,γ-methyleneadenosine 5′-triphosphate, and UMP had little or no effect on the [Ca²⁺]_i rise. Raising the extracellular Mg²⁺ concentration to 10 mM decreases the ATP-and UTP-induced [Ca²⁺]_i rise, because the responses depend on the ATP^4? and UTP^4? concentrations, respectively. The P_2U purinoceptor-selective agonist UTP and the P_2Y purinoceptor-selective agonist ADPβS induce inositol 1,4,5-trisphosphate generation in a concentration-dependent manner with maximal effective concentrations of ～100 µM. In sequential stimulation, UTP and ADPβS do not interfere with each other in raising the [Ca²⁺]_i. Costimulation with UTP and ADPβS results in additive inositol 1,4,5-trisphosphate generation to a similar extent as is achieved with ATP alone. Pretreatment with pertussis toxin inhibits the action of UTP and ATP by maximally 45–55%, whereas it has no effect on the ADPβS response. Treatment with 1 µM phorbol 12-myristate 13-acetate inhibits the ADPβS-induced [Ca²⁺]_i rise more effectively than the ATP- and UTP-induced responses. These results suggest that P_2U and P_2Y purinoceptors coexist on PGT-β cells and that both receptors are linked to phospholipase C.