Homeostasis of extracellular ATP in human erythrocytes

We explored the intra- and extracellular processes governing the kinetics of extracellular ATP (ATPe) in human erythrocytes stimulated with agents that increase cAMP. Using the luciferin-luciferase reaction in off-line luminometry we found both direct adenylyl cyclase activation by forskolin and indirect activation through β-adrenergic stimulation with isoproterenol-enhanced [ATP]e in a concentration-dependent manner. A mixture (3V) containing a combination of these agents and the phosphodiesterase inhibitor papaverine activated ATP release, leading to a 3-fold increase in [ATP]e, and caused increases in cAMP concentration (3-fold for forskolin + papaverine, and 10-fold for 3V). The pannexin 1 inhibitor carbenoxolone and a pannexin 1 blocking peptide ((10)Panx1) decreased [ATP]e by 75-84%. The residual efflux of ATP resulted from unavoidable mechanical perturbations stimulating a novel, carbenoxolone-insensitive pathway. In real-time luminometry experiments using soluble luciferase, addition of 3V led to an acute increase in [ATP]e to a constant value of ～1 pmol × (10(6) cells)(-1). A similar treatment using a surface attached luciferase (proA-luc) triggered a rapid accumulation of surface ATP levels to a peak concentration of 2.4 pmol × (10(6) cells)(-1), followed by a slower exponential decay (t(½) = 3.7 min) to a constant value of 1.3 pmol × (10(6) cells)(-1). Both for soluble luciferase and proA-luc, ATP efflux was fully blocked by carbenoxolone, pointing to a 3V-induced mechanism of ATP release mediated by pannexin 1. Ecto-ATPase activity was extremely low (～28 fmol × (10(6) cells min)(-1)), but nevertheless physiologically relevant considering the high density of erythrocytes in human blood.     

N-methyl-D-glucamine and propidium dyes utilize different permeation pathways at rat P2X(7) receptors

Activation of membrane P2X₇ receptors by extracellular ATP [or its analog 2',3'-O-(4-benzoylbenzoyl)-ATP] results in the opening within several milliseconds of an integral ion channel that is permeable to small cations. If the ATP application is maintained for several seconds, two further sequelae occur: there is a gradual increase in permeability to the larger cation N-methyl-D-glucamine and the cationic propidium dye quinolinium, 4-[(3-methyl-2(3H)-benzoxazolylidene)methyl]-1-[3-(triethylammonio)propyl]diiodide (YO-PRO-1) enters the cell. The similarity in the time course of these two events has led to the widespread view that N-methyl-D-glucamine and YO-PRO-1 enter through a common permeation pathway, the "dilating" P2X₇ receptor pore. Here we provide two independent lines of evidence against this view. We studied single human embryonic kidney cells expressing rat P2X₇ receptors with patch-clamp recordings of membrane current and with fluorescence measurements of YO-PRO-1 uptake. First, we found that maintained application of the ATP analog did not cause any increase in N-methyl-D-glucamine permeability when the extracellular solution contained its normal sodium concentration, although YO-PRO-1 uptake was readily observed. Second, we deleted a cysteine-rich 18-amino acid segment in the intracellular juxtamembrane region of the P2X₇ receptor. This mutated receptor showed normal YO-PRO-1 uptake but had no permeability to N-methyl-D-glucamine. Together, the clear differential effects of extracellular sodium ions or of mutation of the receptor strongly suggest that N-methyl-D-glucamine and YO-PRO-1 do not enter the cell by the same permeation pathway. ATP; cation channel; permeability; quinolinium, 4-[(3-methyl-2(3H)-benzoxazolylidene)methyl]-1-[3-(triethylammonio)propyl]diiodide     

Increased level of extracellular ATP at tumor sites: in vivo imaging with plasma membrane luciferase

Background

There is growing awareness that tumour cells build up a “self-advantageous” microenvironment that reduces effectiveness of anti-tumour immune response. While many different immunosuppressive mechanisms are likely to come into play, recent evidence suggests that extracellular adenosine acting at A2A receptors may have a major role in down-modulating the immune response as cancerous tissues contain elevated levels of adenosine and adenosine break-down products. While there is no doubt that all cells possess plasma membrane adenosine transporters that mediate adenosine uptake and may also allow its release, it is now clear that most of extracellularly-generated adenosine originates from the catabolism of extracellular ATP.

Methodology/Principal Findings

Measurement of extracellular ATP is generally performed in cell supernatants by HPLC or soluble luciferin-luciferase assay, thus it generally turns out to be laborious and inaccurate. We have engineered a chimeric plasma membrane-targeted luciferase that allows in vivo real-time imaging of extracellular ATP. With this novel probe we have measured the ATP concentration within the tumour microenvironment of several experimentally-induced tumours.

Conclusions/Significance

Our results show that ATP in the tumour interstitium is in the hundrends micromolar range, while it is basically undetectable in healthy tissues. Here we show that a chimeric plasma membrane-targeted luciferase allows in vivo detection of high extracellular ATP concentration at tumour sites. On the contrary, tumour-free tissues show undetectable extracellular ATP levels. Extracellular ATP may be crucial for the tumour not only as a stimulus for growth but also as a source of an immunosuppressive agent such as adenosine. Our approach offers a new tool for the investigation of the biochemical composition of tumour milieu and for development of novel therapies based on the modulation of extracellular purine-based signalling.     

Extracellular ATP as a signaling molecule for epithelial cells

The charge of this invited review is to present a convincing case for the fact that cells release their ATP for physiological reasons. Many of our "purinergic" colleagues as well as ourselves have experienced resistance to this concept, because it is teleologically counter-intuitive. This review serves to integrate the three main tenets of extracellular ATP signaling: ATP release from cells, ATP receptors on cells, and ATP receptor-driven signaling within cells to affect cell or tissue physiology. First principles will be discussed in the Introduction concerning extracellular ATP signaling. All possible cellular mechanisms of ATP release will then be presented. Use of nucleotide and nucleoside scavengers as well as broad-specificity purinergic receptor antagonists will be presented as a method of detecting endogenous ATP release affecting a biological endpoint. Innovative methods of detecting released ATP by adapting luciferase detection reagents or by using "biosensors" will be presented.Because our laboratory has been primarily interested in epithelial cell physiology and pathophysiology for several years, the role of extracellular ATP in regulation of epithelial cell function will be the focus of this review. For ATP release to be physiologically relevant, receptors for ATP are required at the cell surface. The families of P2Y G protein-coupled receptors and ATP-gated P2X receptor channels will be introduced. Particular attention will be paid to P2X receptor channels that mediate the fast actions of extracellular ATP signaling, much like neurotransmitter-gated channels versus metabotropic heptahelical neurotransmitter receptors that couple to G proteins. Finally, fascinating biological paradigms in which extracellular ATP signaling has been implicated will be highlighted. It is the goal of this review to convert and attract new scientists into the exploding field of extracellular nucleotide signaling and to convince the reader that extracellular ATP is indeed a signaling molecule.     

Cell Locomotion and Contact Guidance in Amphibian Gastrulation

Presumptive mesodermal cells in amphibian gastrulae migratefrom the blastopore toward the animal pole by using the innersurface of the ectodermal layer as their substratum. Duringmigration, the mesodermal cells form lamellipodia and filopodiapredominantly in a direction toward the animal pole. There isa network of the extracellular fibrils on the inner surfaceof the ectodermal layer. The fibrils seem to serve as an adequatesubstratum for attachment of the filopodia and locomotion ofthe mesodermal cells. A significant alignment of the fibrilnetwork along the blastopore—animal pole axis suggestsa hypothesis that it directs morphogenetic cell movements bycontact guidance in combination with contact inhibition of movement.New culture conditions allow the gastrula mesodermal cells tomove actively in vitro with a similar cell shape and at a similarrate as in vivo. Such culture conditions enabled an in vitroexperiment to test the hypothesis of contact guidance. Explantedectodermal layers deposit the fibril network on the surfaceof a cover slip. Dissociated gastrula mesodermal cells seededon such a conditioned surface attach to the surface and moveabout actively. A computer analysis of the time—lapsefilms shows that the cell trails are significantly aligned alongthe blastopore—animal pole axis of the ectodermal layerthat conditioned the surface. The deposited fibril network showsthe alignment along the same axis. There is also a tendencyof the mesodermal cells to move in a polarized fashion preferentiallytoward the animal pole. These results support the hypothesisof contact guidance of mesodermal cell migration in vivo byoriented extracellular fibrils     

Colocalization of ATP release sites and ecto-ATPase activity at the extracellular surface of human astrocytes

Extracellular ATP and other nucleotides function as autocrine and paracrine signaling factors in many tissues. Recent studies suggest that P2 nucleotide receptors and ecto-nucleotidases compete for a limited pool of endogenously released nucleotides within cell surface microenvironments that are functionally segregated from the bulk extracellular compartment. To test this hypothesis, we have used luciferase-based methods to continuously record extracellular ATP levels in monolayers of human 1321N1 astrocytoma cells under resting conditions, during stimulation of Ca2+-mobilizing receptors for thrombin or acetylcholine, and during mechanical stimulation by hypotonic stress. Soluble luciferase was utilized as an indicator of ATP levels within the bulk extracellular compartment, whereas a chimeric protein A-luciferase, adsorbed to antibodies against a glycosylphosphatidylinositol-anchored plasma membrane protein, was used as a spatially localized probe of ATP levels at the immediate extracellular surface. Significant accumulation of ATP in the bulk extracellular compartment, under either resting (1-2 nm ATP) or stimulated (10-80 nm ATP) conditions, was observed only when endogenous ecto-ATPase activity was pharmacologically inhibited by the poorly metabolizable analog, betagamma-methylene ATP. In contrast, accumulation of submicromolar ATP in the cell surface microenvironment was readily measured even in the absence of ecto-ATPase inhibition suggesting that the spatially colocalized luciferase could effectively compete with endogenous ecto-ATPases for released ATP. Other experiments revealed a critical role for elevated cytosolic [Ca2+] in the ATP release mechanism triggered by thrombin or muscarinic receptors but not in basal ATP release or release stimulated by hypotonic stress. These observations suggest that ATP release sites are colocalized with ecto-ATPases at the astrocyte cell surface. This colocalization may act to spatially restrict the actions of released ATP as a paracrine or autocrine mediator of cell-to-cell signaling.     

Mutant firefly luciferases with improved specific activity and dATP discrimination constructed by yeast cell surface engineering

Pyrosequencing system utilizing luciferase is one of the next-generation DNA sequencing systems. However, there is a crucial problem with the current pyrosequencing system: luciferase cannot discriminate between ATP and dATP completely, and dATPαS must be used as the dATP analogue. dATPαS is expensive and has low activity for the enzyme. If luciferase can clearly recognize the difference between ATP and dATP, dATP could be used instead of the expensive dATPαS in the pyrosequencing system. We attempted to prepare a novel luciferase with improved specific activity and dATP discrimination with the molecular display method. First, we selected two amino acid residues, Ser440 and Ser456, as target residues for mutation from the whole sequence of Photinus pyralis luciferase; we comprehensively mutated these two amino acids. A mutant luciferase library was constructed using yeast cell surface engineering. Through three step-wide screenings with individual conditions, we easily and speedily isolated three candidate mutants from 1,152 candidates and analyzed the properties of these mutants. Consequently, we succeeded in obtaining interesting mutant luciferases with improved specific activity and dATP discrimination more conveniently than with other methods.     

Ecto-Protein Kinase and Surface Protein Phosphorylation in PC12 Cells: Interactions with Nerve Growth Factor

Abstract: The phosphorylation of surface proteins by ectoprotein kinase has been proposed to play a role in mechanisms underlying neuronal differentiation and their responsiveness to nerve growth factor (NGF). PC 12 clones represent an optimal model for investigating the mode of action of NGF in a homogeneous cell population. In the present study we obtained evidence that PC12 cells possess ectoprotein kinase and characterized the endogenous phosphorylation of its surface protein substrates. PC12 cells maintained in a chemically defined medium exhibited phosphorylation of proteins by [γ-³²P]ATP added to the medium at time points preceding the intracellular phosphorylation of proteins in cells labeled with ³²P_i. This activity was abolished by adding apyrase or trypsin to the medium but was not sensitive to addition of an excess of unlabeled P_i. As also expected from ecto-protein kinase activity, PC12 cells catalyzed the phosphorylation of an exogenous protein substrate added to the medium, dephospho-α-casein, and this activity competed with the endogenous phosphorylation for extracellular ATP. Based on these criteria, three protein components migrating in sodium dodecyl sulfate gels with apparent molecular weights of 105K, 39K, and 20K were identified as exclusive substrates of ecto-protein kinase in PC12 cells. Of the phosphate incorporated into these proteins from extracellular ATP, 75–87% was found in phosphothreonine. The phosphorylation of the 39K protein by ecto-protein kinase did not require Mg²⁺, implicating this activity in the previously demonstrated regulation of Ca²⁺-dependent, high-affinity norepinephrine uptake in PC12 cells by extracellular ATP. The protein kinase inhibitor K-252a inhibited both intra- and extracellular protein phosphorylation in intact PC12 cells. Its hydrophilic analogue K-252b, had only minimal effects on intracellular protein phosphorylation but readily inhibited the phosphorylation of specific substrates of ecto-protein kinase in PC12 cells incubated with extracellular ATP, suggesting the involvement of ecto-protein kinase in the reported inhibition of NGF-induced neurite extension by K-252b. Preincubation of PC12 cells with 50 ng/ml of NGF for 5 min stimulated the activity of ecto-protein kinase toward all its endogenous substrates. Exposure of PC12 cells to the same NGF concentration for 3 days revealed another substrate of ecto-protein kinase, a 53K protein, whose surface phosphorylation is expressed only after NGF-induced neuronal differentiation. In the concentration range (10–100 μM) at which 6-thioguanine blocked NGF-promoted neurite outgrowth in PC12 cells, 6-thioguanine effectively inhibited the phosphorylation of specific proteins by ecto-protein kinase. This study provides the basis for continued investigation of the involvement of ecto-protein kinase and its surface protein substrates in neuronal differentiation, neuritogenesis, and synaptogenesis.     

P2X7 receptor-mediated apoptosis of human cervical epithelial cells

Normal human ectocervical epithelial (hECE) cells undergo apoptosis in culture. Baseline apoptosis could be increased by shifting cells to serum-free medium and blocked by lowering extracellular calcium. Treatment with the ATPase apyrase attenuated baseline apoptosis, suggesting that extracellular ATP and purinergic mechanisms control the apoptosis. Treatment with ATP and the P2X₇ receptor analog 2'-3'-O-(4-benzoylbenzoyl)adenosine 5'-triphosphate (BzATP) increased apoptosis significantly, in a time- and dose-related manner. The threshold of ATP effect was 0.5 µM in hECE cells and 1 µM in CaSki cancer cells. The apoptotic effect of BzATP was additive in part to that of tumor necrosis factor (TNF)-, and it could be attenuated by lowering extracellular calcium and by treatment with the caspase-9 inhibitor Leu-Glu-His-Asp-O-methyl-fluoromethylketone (LEHD-FMK). Treatment with BzATP activated caspase-9, and, in contrast to TNF-, it had only a mild effect on caspase-8. Both BzATP and TNF- activated caspase-3, suggesting that BzATP activates predominantly the mitochondrial apoptotic pathway. Both hECE and CaSki cells secrete ATP into the extracellular fluid, and mean ATP activity in conditioned medium was 0.5 µM, which is in the range of values that suffice to activate the P2X₇ receptor. On the basis of these findings we propose a novel autocrine-paracrine mechanism of cervical cell apoptosis that operates by P2X₇ receptor control of cytosolic calcium and utilizes the mitochondrial apoptotic pathway. cervix; epithelium; ATP; 2'-3'-O-(4-benzoylbenzoyl)adenosine 5'-triphosphate     

A novel recombinant plasma membrane-targeted luciferase reveals a new pathway for ATP secretion

ATP is emerging as an ubiquitous extracellular messenger. However, measurement of ATP concentrations in the pericellular space is problematic. To this aim, we have engineered a firefly luciferase-folate receptor chimeric protein that retains the N-terminal leader sequence and the C-terminal GPI anchor of the folate receptor. This chimeric protein, named plasma membrane luciferase (pmeLUC), is targeted and localized to the outer aspect of the plasma membrane. PmeLUC is sensitive to ATP in the low micromolar to millimolar level and is insensitive to all other nucleotides. To identify pathways for nonlytic ATP release, we transfected pmeLUC into cells expressing the recombinant or native P2X₇ receptor (P2X₇R). Both cell types release large amounts of ATP (100–200 μM) in response to P2X₇R activation. This novel approach unveils a hitherto unsuspected nonlytic pathway for the release of large amounts of ATP that might contribute to spreading activation and recruitment of immune cells at inflammatory sites.     

Do rat cardiac myocytes release ATP on contraction?

ATP is released by numerous cell types in response to mechanical strain. It then acts as a paracrine or autocrine signaling molecule, inducing a variety of biological responses. In this work, we addressed the question whether mechanical force acting on the membranes of contracting cardiomyocytes during periodic longitudinal shortening can stimulate the release of ATP. Electrically stimulated isolated adult rat cardiomyocytes as well as spontaneously contracting mouse cardiomyocytes derived from embryonic stem (ES) cells were assayed for ATP release with the use of luciferase and a sensitive charge-coupled device camera. Sensitivity of soluble luciferase in the supernatant of cardiomyocytes was 100 nM ATP, which is 10-fold below the EC₅₀ values for most purinergic receptors expressed in the heart (1.5–20 µM). Light intensities were not different between resting or contracting adult rat cardiomyocytes. Similar results were obtained with ES-cell-derived contracting mouse cardiomyocytes. ATP release was measurable only from obviously damaged or permeabilized cells. To increase selectivity and sensitivity of ATP detection we have targeted a recombinant luciferase to the sarcolemmal membrane using a wheat germ agglutinin-IgG linker. Contraction of labeled adult rat cardiomyocytes was not associated with measurable bioluminescence. However, when human umbilical vein endothelial cells were targeted with membrane-bound luciferase, shear stress-induced ATP release could be clearly detected, demonstrating the sensitivity of the detection method. In the present study, we did not detect ATP release from contracting cardiomyocytes on the single cell level, despite adequate sensitivity of the detection system. Thus deformation of the contracting cardiomyocyte is not a key stimulus for the release of cellular ATP. cardiomyocytes; luciferase     

The signaling role of extracellular ATP and its dependence on Ca2+ flux in elicitation of Salvia miltiorrhiza hairy root cultures

The application of a polysaccharide elicitor from yeast extract,YE, to Salvia miltiorrhiza hairy root cultures induced transientrelease of ATP from the roots to the medium, leading to a dose-dependentincrease in the extracellular ATP (eATP) level. The eATP levelrose to a peak (about 6.5 nM with 100 mg l^–1 YE) at about10 h after YE treatment, but dropped to the control level 6h later. The elicitor-induced ATP release was dependent on membraneCa²⁺ influx, and abolished by the Ca²⁺ chelator EGTA or thechannel blocker La³⁺. The YE-induced H₂O₂ production was stronglyinhibited by reactive blue (RB), a specific inhibitor of membranepurinoceptors. On the other hand, the application of exogenousATP at 10–100 µM to the cultures also induced rapidand dose-dependent increases in H₂O₂ production and medium pH,both of which were effectively blocked by RB and EGTA. The non-hydrolyzableATP analog ATPS was as effective as ATP, but the hydrolyzedderivatives ADP or AMP were not so effective in inducing thepH and H₂O₂ increases. Our results suggest that ATP releaseis an early event and that eATP plays a signaling role in theelicitation of plant cell responses; Ca²⁺ is required for activationof the elicitor-induced ATP release and the eATP signal transduction.This is the first report on ATP release induced by a fungalelicitor and its involvement in the elicitor-induced responsesin plant cells.     

A review of bioluminescent ATP techniques in rapid microbiology

Use of firefly luciferase to assay adenosine triphosphate (ATP) extracted from microorganisms provides an easy means to enumerate microbes within minutes. The small amount of light produced is proportional to ATP and thus microbial number. The average bacterium contains around 10^?15 g ATP per cell. Present reagents permit detection of 10³ cells per tube. Luminometers currently on the market detect about 10^?12 g ATP. Proper extraction of ATP from the microbes is an essential part of any protocol, as is the removal of non-microbial ATP from, for example, somatic cells also present in samples. The technique may be applied to a wide range of samples, for example food and beverages and clinical samples such as urine. The ATP assay gives a global measure of microbial numbers, i.e. it is not species specific unless a species separation step is included in the protocol.     

Preservation of metabolic reserves and function after storage of myocytes in hypothermic UW solution

Isolated rat myocytes coldstored anaerobically up to 24 h in University of Wisconsinsolution lost 95% of their ATP and 100% of their glycogen. Theyunderwent contracture when rewarmed in a Krebs-Henseleit (KH) mediumthat contained Ca unless Ca addition was delayed. In the latter case,cell function, measured by stimulation-induced cell shortening, wassurprisingly well retained. Aerobically stored cells were resistant toCa on rewarming, although 96% of glycogen was still lost, along with46% of ATP. Cells that were incubated for 48 h aerobically withthe substrates glucose and pyruvate at pH 6.2 retained 77% of theirATP and 59% of their glycogen, with good cell morphology. At pH 6.2, the demand for ATP was only 55% of that at pH 7.4. However, afterrewarming, these cells functioned no better than anaerobically storedcells, although their inotropic response to isoproterenol was improved.We conclude that 1) aerobic conditions with substrates atlow pH preserve myocyte metabolic reserves well for 48 h, partlyby reducing the demand for ATP; 2) rewarming conditions arecritical for anaerobically stored cells with metabolic stores that areseverely depleted; and 3) unloaded cell function issurprisingly insensitive to a period of severe metabolic deprivation.

     

Enumeration of phagocytosed Staphylococcus aureus inside cells of the mouse macrophage cell line J774 by bioluminescence,fluorescence and viable counting techniques

In order to quantify intracellular Staphylococcus aureus within a macrophage-like cell line by a bioluminescence technique, the mouse cell line J774 and opsonized Staphylococcus aureus were incubated together to allow phagocytosis to occur. Experiments using UV microscopy and fluorescent stained S. aureus were performed to determine an estimate of the mean intracellular bacterial numbers. For enumeration of intracellular bacteria by a bioluminescence technique, extracellular bacteria were removed by washing, the macrophages lysed mechanically and osmotically and treated with apyrase to remove somatic ATP. Bacterial cells were washed and the intracellular ATP measured by firefly luciferase bioluminescence in a luminometer. This new method of enumerating intracellular bacteria was compared to the conventional method of viable counts and found to correlate (r = 0.78). The bioluminescence assay developed was found to be a relatively rapid alternative method to the techniques currently used to enumerate intracellular bacteria and could prove advantageous in studies of intracellular killing and effects of antimicrobial agents on intracellular pathogens.     

Impedance analysis of renal vascular smooth muscle cells

Impedance of renal vascular smooth muscle cells (VSMCs) cultured on microelectrodes was measured by electric cell-substrate impedance sensing. Changes in measured impedance as a function of frequency were compared with the calculated values obtained from an extended cell-electrode model to estimate the junctional resistance, distance between the ventral cell surface and the substratum, and apical and basolateral membrane capacitances of renal VSMCs. This cell-electrode model was derived to accommodate the slender and rectangular shape of VSMCs. The calculated changes in impedance (Z_cal) based on the model agreed well with the experimental measurement (Z_exp), and the percentage error defined as |(Z_cal – Z_exp)/Z_exp| was 1.0%. To test the sensitivity of the new model for capturing changes in cell-cell and cell-substrate interactions induced by changes in cellular environment, we then applied this model to analyze timpedance changes induced by an integrin binding peptide in renal VSMCs. Our result demonstrates that integrin binding peptide decreases junctional resistance between cells, increases the distance between the basolateral cell surface and substratum, and increases the apical membrane capacitance, whereas the basolateral membrane capacitance stays relatively stable. This model provides a generic approach for impedance analysis of cell layers composed of slender, rectangular cells. electric cell-substrate impedance sensing; cell attachment; cell adhesion; extracellular matrix; integrin     

The Inductive Role of Bacterial Symbionts in the Morphogenesis of a Squid Light Organ

SYNOPSIS. The association of the sepiolid squid Euprymna scolopeswith its marine luminous bacterial symbiont Vibrio fischeriis an emerging model system to study the initiation and developmentof bacterial symbioses in higher animals, in particular theinfluence of bacteria on the ontogenic development of symbiotic-specifichost tissues. Experiments comparing the development of juvenilesquid infected with symbiotic V. fischeri with that of uninfectedjuveniles suggest postembryonic development of the light organrequires cell-cell interactions with the bacterial symbionts.The presence of symbiotic bacteria induces specific morphologicalchanges by affecting such fundamental processes as cell deathand cell differentiation. The surface of the juvenile organis largely composed of ciliated cells that appear to facilitateinfection of the light organ. These cells begin to undergo celldeath within hours of infection with symbiotic V. fischeri.Within three days the epithelial cells that form the bacteriacontainingcrypts of the light organ increase in size; these cells do notappear mitotically active, and may represent a terminally differentiatedstate. The light organs of uninfected juvenile E. scolopes,however, do not exhibit any of these early postembryonic developmentalevents but remain in a state of arrested morphogenesis.     

Cell-surface-localized ATP detection with immobilized firefly luciferase

We demonstrate the application of an assay technique for the detection of ATP efflux from the cell surface. Until recently, the firefly luciferase assay has conventionally been used to detect ATP release because of its high sensitivity and wide detection ability. However, since this technique can be used only to infer the amount of diffused ATP in bulk solutions, it does not accurately reflect the dynamic ATP flux at the cell membrane. We therefore constructed luciferase fusion proteins that could be immobilized onto the cell surface. However, the low activities and limited application ranges of these proteins prompted us to use biotinylated luciferase given its attributes of strong and stable localization. Furthermore, luciferase can be immobilized strongly onto the biotinylated cell surface via streptavidin-biotin binding and can thus be used to determine the dynamic release of ATP near the cell surface.     

γ-Irradiation induces P2X7 receptor-dependent ATP release from B16 melanoma cells

Background

Ionizing irradiation causes not only growth arrest and cell death, but also release of growth factors or signal transmitters, which promote cancer malignancy. Extracellular ATP controls cancer growth through activation of purinoceptors. However, there is no report of radiation-induced ATP release from cancer cells. Here, we examined γ-irradiation-induced ATP release and its mechanism in B16 melanoma.

Methods

Extracellular ATP was measured by luciferin–luciferase assay. To investigate mechanism of radiation-induced ATP release, we pharmacologically inhibited the ATP release and established stable P2X₇ receptor-knockdown B16 melanoma cells using two short hairpin RNAs targeting P2X₇ receptor.

Results

Cells were exposed to 0.5–8 Gy of γ-rays. Extracellular ATP was increased, peaking at 5 min after 0.5 Gy irradiation. A selective P2X₇ receptor channel antagonist, but not anion transporter inhibitors, blocked the release of ATP. Further, radiation-induced ATP release was significantly decreased in P2X₇ receptor-knockdown cells. Our results indicate that γ-irradiation evokes ATP release from melanoma cells, and P2X₇ receptor channel plays a significant role in mediating the ATP release.

General Significance

We suggest that extracellular ATP could be a novel intercellular signaling molecule released from cancer cells when cells are exposed to ionizing radiation.