P2Z/P2X7 receptor-dependent apoptosis of dendritic cells

Macrophages andthymocytes expressP_2Z/P2X₇nucleotide receptors that bind extracellular ATP. These receptors playa role in immune development and control of microbial infections, but their presence on dendritic cells has not been reported. Weinvestigated whether extracellular ATP could triggerP_2Z/P2X₇receptor-dependent apoptosis of dendritic cells. Apoptosis could beselectively triggered by tetrabasic ATP, since otherpurine/pyrimidine nucleotides were ineffective, and it wasmimicked by the P_2Z receptoragonist, benzoylbenzoyl ATP, and blocked by magnesium and theirreversible antagonist, oxidized ATP. RT-PCR analysis confirmed themRNA expression of theP_2Z/P2X₇receptor and the absence of P2X₁.Caspase inhibitors and cycloheximide had only a partial effect on theapoptosis, suggesting that a caspase-independent mechanism may also beoperative. Brief treatment with ATP led to an increase in theintracellular calcium concentration and permeabilization of the plasmamembrane to Lucifer yellow, which diffused throughout the dendriticcell cytosol. Other small extracellular molecules may thus attain a similar intracellular distribution, perhaps activating endogenous proteases that contribute to initiation of apoptosis.     

Maitotoxin and P2Z/P2X7 purinergic receptor stimulation activate a common cytolytic pore

The effects ofmaitotoxin (MTX) on plasmalemma permeability are similar to thosecaused by stimulation of P2Z/P2X₇ionotropic receptors, suggesting that1) MTX directly activatesP2Z/P2X₇ receptors or2) MTX andP2Z/P2X₇ receptor stimulationactivate a common cytolytic pore. To distinguish between these twopossibilities, the effect of MTX was examined in1) THP-1 monocytic cells before andafter treatment with lipopolysaccharide and interferon-, a maneuverknown to upregulate P2Z/P2X₇receptor, 2) wild-type HEK cells andHEK cells stably expressing theP2Z/P2X₇ receptor, and3) BW5147.3 lymphoma cells, a cellline that expresses functional P2Z/P2X₇ channels that are poorlylinked to pore formation. In control THP-1 monocytes, addition of MTXproduced a biphasic increase in the cytosolic freeCa²⁺ concentration([Ca²⁺]_i);the initial increase reflects MTX-inducedCa²⁺ influx, whereas the secondphase correlates in time with the appearance of large pores and theuptake of ethidium. MTX produced comparable increases in[Ca²⁺]_iand ethidium uptake in THP-1 monocytes overexpressing theP2Z/P2X₇ receptor. In bothwild-type HEK and HEK cells stably expressing theP2Z/P2X₇ receptor, MTX-inducedincreases in[Ca²⁺]_iand ethidium uptake were virtually identical. The response of BW5147.3cells to concentrations of MTX that produced large increases in[Ca²⁺]_ihad no effect on ethidium uptake. In both THP-1 and HEK cells, MTX- andBz-ATP-induced pores activate with similar kinetics and exhibit similarsize exclusion. Last, MTX-induced pore formation, but not channelactivation, is greatly attenuated by reducing the temperature to22°C, a characteristic shared by theP2Z/P2X₇-induced pore. Together,the results demonstrate that, although MTX activates channels that aredistinct from those activated byP2Z/P2X₇ receptor stimulation, thecytolytic/oncotic pores activated by MTX- and Bz-ATP are indistinguishable.

     

P2X7 purinoceptor alterations in dystrophic mdx mouse muscles: relationship to pathology and potential target for treatment

Duchenne muscular dystrophy (DMD) is a lethal inherited muscle disorder. Pathological characteristics of DMD skeletal muscles include, among others, abnormal Ca(2+) homeostasis and cell signalling. Here, in the mdx mouse model of DMD, we demonstrate significant P2X7 receptor abnormalities in isolated primary muscle cells and cell lines and in dystrophic muscles in vivo. P2X7 mRNA expression in dystrophic muscles was significantly up-regulated but without alterations of specific splice variant patterns. P2X7 protein was also up-regulated and this was associated with altered function of P2X7 receptors producing increased responsiveness of cytoplasmic Ca(2+) and extracellular signal-regulated kinase (ERK) phosphorylation to purinergic stimulation and altered sensitivity to NAD. Ca(2+) influx and ERK signalling were stimulated by ATP and BzATP, inhibited by specific P2X7 antagonists and insensitive to ivermectin, confirming P2X7 receptor involvement. Despite the presence of pannexin-1, prolonged P2X7 activation did not trigger cell permeabilization to propidium iodide or Lucifer yellow. In dystrophic mice, in vivo treatment with the P2X7 antagonist Coomassie Brilliant Blue reduced the number of degeneration-regeneration cycles in mdx skeletal muscles. Altered P2X7 expression and function is thus an important feature in dystrophic mdx muscle and treatments aiming to inhibit P2X7 receptor might slow the progression of this disease.     

Partial agonists and antagonists reveal a second permeability state of human lymphocyte P2Z/P2X7 channel

Extracellular ATP is known to trigger apoptosis of thymocytesand lymphocytes through a P2Z receptor at which ATP is a partial agonist, giving only 70% of the maximum response of3'-O-(4-benzoyl)benzoyl-adenosine 5'-triphosphate (BzATP), a full agonist. This cytolytic receptor and its associated ion channel areCa²⁺ (andBa²⁺) selective but also passmolecules up to the size of ethidium cation (314 Da).RT-PCR showed identity between lymphocyte P2Z and thehP2X₇ gene recently cloned fromhuman monocytes. When human leukemic B lymphocytes were incubated withATP and¹³³Ba²⁺,an immediate influx of isotope occurred. It was augmented by 45% whenATP was added 10 min before isotope. Time-resolved flow cytometry wasused to examine kinetics of ethidium uptake in cells incubated withBzATP or the partial agonists ATP, 2-methylthioadenosine 5'-triphosphate, or adenosine5'-O-(3-thiotriphosphate).Maximally effective concentrations of BzATP (50 µM) induced immediateuptake of ethidium at a rate linear with time. In contrast, a delay was observed (30 s) before ethidium uptake commenced after addition ofmaximally effective ATP concentrations (500 µM) at 37°C, and thedelay was longer at 24°C. ATP addition 2-10 min beforeethidium abolished the delay. The delay was longer with other partialagonists and inversely related to maximal flux produced by agonist. Adelay was also observed for submaximal BzATP concentrations (10-20µM). P2Z/P2X₇ inhibitors, KN-62and5-(N,N-hexamethylene)-amiloride, reduced the rate of agonist-induced ethidium uptake and lengthened thedelay. The results support a model in which agonists forP2Z/P2X₇ receptor mediate animmediate channel opening allowing passage of small inorganic cations,followed by a slow further permeability increase allowing passage oflarger permeant cations like ethidium. The rate of the second stepdepends on time and temperature and the efficacy and concentration ofagonist and is slowed by antagonists, suggesting it depends on thefraction of P2Z/P2X₇ channels held in the initial openstate.

     

Maitotoxin activates a nonselective cation channel and a P2Z/P2X7-like cytolytic pore in human skin fibroblasts

Maitotoxin (MTX),a potent cytolytic agent, activatesCa²⁺ entry via nonselective cationchannels in virtually all types of cells. The identity of the channelsinvolved and the biochemical events leading to cell lysis remainunknown. In the present study, the effect of MTX on plasmalemmalpermeability of human skin fibroblasts was examined. MTX produced atime- and concentration-dependent increase in cytosolic freeCa²⁺ concentration that dependedon extracellular Ca²⁺ and wasrelatively insensitive to blockade by extracellular lanthanides. MTXalso produced a time- and concentration-dependent increase inplasmalemma permeability to larger molecules as indicated by 1) uptake of ethidium (314 Da),2) uptake of YO-PRO-1 (375 Da), 3) release of intracellular fura 2 (636 Da), 4) uptake of POPO-3 (715 Da), and, ultimately,5) release of lactate dehydrogenase (relative molecular weight of 140,000). At the single cell level, uptake of YO-PRO-1 correlated in time with the appearance of large MTX-induced membrane currents carried by the organic cation,N-methyl-D-glucamine (167 Da). Thus MTX initially activatesCa²⁺-permeable cation channels andlater induces the formation of large pores. These effects of MTX onplasmalemmal permeability are similar to those seen on activation ofP2Z/P2X₇ receptors ina variety of cell types, raising the intriguing possibility that MTXand P2Z/P2X₇ receptor stimulationactivate a common cytolytic pore.

     

Cellometer image cytometry as a complementary tool to flow cytometry for verifying gated cell populations

Traditionally, many cell-based assays that analyze cell populations and functionalities have been performed using flow cytometry. However, flow cytometers remain relatively expensive and require highly trained operators for routine maintenance and data analysis. Recently, an image cytometry system has been developed by Nexcelom Bioscience (Lawrence, MA, USA) for automated cell concentration and viability measurement using bright-field and fluorescent imaging methods. Image cytometry is analogous to flow cytometry in that gating operations can be performed on the cell population based on size and fluorescent intensity. In addition, the image cytometer is capable of capturing bright-field and fluorescent images, allowing for the measurement of cellular size and fluorescence intensity data. In this study, we labeled a population of cells with an enzymatic vitality stain (calcein-AM) and a cell viability dye (propidium iodide) and compared the data generated by flow and image cytometry. We report that measuring vitality and viability using the image cytometer is as effective as flow cytometric assays and allows for visual confirmation of the sample to exclude cellular debris. Image cytometry offers a direct method for performing fluorescent cell-based assays but also may be used as a complementary tool to flow cytometers for aiding the analysis of more complex samples.     

Validation of Alexa-647-ATP as a powerful tool to study P2X receptor ligand binding and desensitization

Ion channel opening and desensitization is a fundamental process in neurotransmission. The ATP-gated P2X1 receptor (P2X1R) shows rapid and long-lasting desensitization upon agonist binding. This makes the electrophysiological investigation of its desensitization process, agonist unbinding, and recovery from desensitization a challenging task. Here, we show that the fluorescent agonist Alexa-647-ATP is a potent agonist at the P2X1R and a versatile tool to directly visualize agonist binding and unbinding. We demonstrate that the long-lasting desensitization of the P2X1R is due to both slow unbinding of agonist from the desensitized receptor and agonist mediated receptor internalization. Furthermore, the unbinding of the agonist Alexa-647-ATP from the desensitized receptor is accelerated in the continuous presence of competitive ligand. Modeling of our data indicates that three agonist molecules are required to drive the receptor into desensitization. Direct visualization of ligand unbinding from the desensitized receptor demonstrates the cooperativity of this process.     

Spontaneous Cell Fusion in Macrophage Cultures Expressing High Levels of the P2Z/P2X7 Receptor

Mouse and human macrophages express a plasma membrane receptor for extracellular ATP named P2Z/P2X₇. This molecule, recently cloned, is endowed with the intriguing property of forming an aqueous pore that allows transmembrane fluxes of hydrophylic molecules of molecular weight below 900. The physiological function of this receptor is unknown. In a previous study we reported experiments suggesting that the P2Z/P2X₇ receptor is involved in the formation of macrophage-derived multinucleated giant cells (MGCs; Falzoni, S., M. Munerati, D. Ferrari, S. Spisani, S. Moretti, and F. Di Virgilio. 1995. J. Clin. Invest. 95:1207– 1216). We have selected several clones of mouse J774 macrophages that are characterized by either high or low expression of the P2Z/P2X₇ receptor and named these clones P2Zhyper or P2Zhypo, respectively. P2Zhyper, but not P2Zhypo, cells grown to confluence in culture spontaneously fuse to form MGCs. As previously shown for human macrophages, fusion is inhibited by the P2Z/P2X₇ blocker oxidized ATP. MGCs die shortly after fusion through a dramatic process of cytoplasmic sepimentation followed by fragmentation. These observations support our previous hypothesis that the P2Z/P2X₇ receptor is involved in macrophage fusion.     

Modulation of P2Z/P2X(7) receptor activity in macrophages infected with Chlamydia psittaci

Given the role that extracellular ATP (ATP(o))-mediated apoptosis may play in inflammatory responses and in controlling mycobacterial growth in macrophages, we investigated whether ATP(o) has any effect on the viability of chlamydiae in macrophages and, conversely, whether the infection has any effect on susceptibility to ATP(o)-induced killing via P2Z/P2X(7) purinergic receptors. Apoptosis of J774 macrophages could be selectively triggered by ATP(o), because other purine/pyrimidine nucleotides were ineffective, and it was inhibited by oxidized ATP, which irreversibly inhibits P2Z/P2X(7) purinergic receptors. Incubation with ATP(o) but not other extracellular nucleotides inhibits the growth of intracellular chlamydiae, consistent with previous observations on ATP(o) effects on growth of intracellular mycobacteria. However, chlamydial infection for 1 day also inhibits ATP(o)-mediated apoptosis, which may be a mechanism to partially protect infected cells against the immune response. Infection by Chlamydia appears to protect cells by decreasing the ability of ATP(o) to permeabilize macrophages to small molecules and by abrogating a sustained Ca(2+) influx previously associated with ATP(o)-induced apoptosis.     

Probing the expression and function of the P2X7 purinoceptor with antibodies raised by genetic immunization

The cytolytic P2X7 purinoceptor is widely expressed on leucocytes and has sparked interest because of its peculiar ability to induce a large nonselective membrane pore following treatment of cells with ecto-ATP. Antibodies raised against synthetic P2X7 peptides generally work well in Western-Blot analyses but fail to recognize the native protein on the cell surface. Genetic immunization is a useful technique to raise antibodies directed against proteins in native conformation. Using this technique we have generated highly specific polyclonal (rabbit) and monoclonal (rat) anti-P2X7 antibodies that readily detect mouse P2X7 on the surface of living cells by immunofluorescence analyses and flow cytometry. Binding of these antibodies to P2X7 is reduced within seconds after treatment of cells with ATP, suggesting that ligand binding induces a conformational shift and/or the shedding of P2X7. By site directed mutagenesis we have mutated three conserved arginine residues (R294A, R307A, R316A) in the extracellular loop of P2X7 near the second transmembrane region. Each of these mutations results in loss of ATP response. FACS and immunoblot analyses reveal that the R294A mutant is expressed at higher levels than wild-type P2X7 in transfected cells, whereas the R307A and R316A mutants are barely detectable because there is no or very little protein synthesis of these constructs. In accord with its resistance to ATP-induced activation the R294A mutant is not down-modulated from the cell surface by ATP-treatment.     

P2X7 receptor as sensitive flow sensor for ERK activation in osteoblasts

The involvement of the P2 receptor in the activation of ERK induced by a short transient fluid flow stimulation in MC3T3-E1 osteoblasts was examined in the current study. The ERK activation induced by this transient fluid flow stimulation was followed by an increase in c-fos mRNA expression. Suramin, a non-selective P2 receptor antagonist, and two different P2X7 receptor (P2X7R) antagonists, ATP analogue (oxidized ATP) and dye (Brilliant blue G), inhibited fluid flow-induced ERK activation. However, the P2Y receptor pathway inhibitor U73122 did not abolish this ERK activation. The P2X7R agonist 2′,3′-O-(4-benzoylbenzoyl)-ATP (BzATP) significantly increased ERK activation and this activation could be completely inhibited by oxidized ATP and Brilliant blue G. Our results suggest that P2X7R is a highly sensitive P2 receptor for fluid flow-induced ERK activation in osteoblasts.     

Flow cytometry of bacteria: a promising tool in experimental and clinical microbiology

The DNA and protein content of individual Escherichia coli cells were measured at a rate of 10(4) cells per second with a sensitive microscope-based flow cytometer. DNA and protein were quantified by measuring the fluorescence from cells stained with a combination of the DNA-binding drugs Mithramycin and ethidium bromide and by scattered light, respectively. Separate experiments demonstrated that the light scatter signal was proportional to protein content. Dual parameter histograms (fluorescence/scattered light) of bacterial cultures gave detailed pictures of changes dependent upon the growth conditions and of the cell cycle kinetics. Effects of antibiotics could be readily detected and characterized after a few hours. The results demonstrate that flow cytometry is a promising method for application in experimental and clinical microbiology.     

Dorsal root ganglia P2X4 and P2X7 receptors contribute to diabetes-induced hyperalgesia and the downregulation of electroacupuncture on P2X4 and P2X7

Diabetic neuropathic pain (DNP) is highly common in diabetes patients. P2X receptors play critical roles in pain sensitization. We previously showed that elevated P2X3 expression in dorsal root ganglion (DRG) contributes to DNP. However, the role of other P2X receptors in DNP is unclear. Here, we established the DNP model using a single high-dose streptozotocin (STZ) injection and investigated the expression of P2X genes in the DRG. Our data revealed elevated P2X2, P2X4, and P2X7 mRNA levels in DRG of DNP rats. The protein levels of P2X4 and P2X7 in DNP rats increased, but the P2X2 did not change significantly. To study the role of P2X4 and P2X7 in diabetes-induced hyperalgesia, we treated the DNP rats with TNP-ATP (2’,3’-O-(2,4,6-trinitrophenyl)-adenosine 5’-triphosphate), a nonspecific P2X1–7 antagonist, and found that TNP-ATP alleviated thermal hyperalgesia in DNP rats. 2 Hz electroacupuncture is analgesic against DNP and could downregulate P2X4 and P2X7 expression in DRG. Our findings indicate that P2X4 and P2X7 in L4–L6 DRGs contribute to diabetes-induced hyperalgesia, and that EA reduces thermal hyperalgesia and the expression of P2X4 and P2X7.     

The human SH-SY5Y neuroblastoma cell-line expresses a functional P2X7 purinoceptor that modulates voltage-dependent Ca2+ channel function

Fura-2 imaging of purinergic stimulation of non-differentiated neuronal human SH-SY5Y cells resulted in a rapid elevation in intracellular Ca2+ ([Ca2+]i) that was dependent on extracellular Ca2+. The rank order of agonists (200 micro m) was as follows: 2',3'-O-(4-benzoyl-benzoyl)-ATP (BzATP) > ATP4- > ATP; whereas 2-(methylthio)-ATP, ADP, UTP and alpha,beta-methylene-ATP and beta,gamma-methylene-ATP were ineffective. The response to BzATP was inhibited by pyridoxal-phosphate-6-azophenyl-2',4'-disulfonic-acid (PPADS, 1 micro m), 1-(N,O-bis[5-isoquinolinesulfonyl]-N-methyl-l-tyrosyl)-4-phenylpiperazine (KN-62, 100 nm) and 8-(3-benzamido-4-4-methylbenzamido)-naphthalene-1,3,5-trisulfonic-acid (suramin, 200 micro m). The presence of a P2X7 receptor was confirmed by western blot studies using anti-P2X7. EC50 for BzATP was 212 +/- 6 micro m. BzATP > 30 micro m induced an initial, transient increase in [Ca2+]i before a plateau level was reached. BzATP < 30 micro m only produced a monophasic increase to the plateau level. The transient phase was reduced by the introduction of nimodipine (3 micro m) and to a smaller degree by omega-conotoxin GVIA (1 micro m) despite an almost equal presence of L and N-type Ca2+-channels. In whole-cell voltage-clamp studies at - 90 mV, BzATP (300 micro m) produced a fast activating inward current with a similar pharmacology as observed with Fura-2 imaging. Current clamp studies showed a dose-dependent depolarization to BzATP and ATP4-. BzATP also triggered transmitter release. Thus, the human neuronal SH-SY5Y cell line expresses a functional P2X7 receptor coupled to activation of Ca2+-channels.     

Involvement of sodium in early phosphatidylserine exposure and phospholipid scrambling induced by P2X7 purinoceptor activation in thymocytes

Extracellular ATP (ATP(ec)), a possible effector in thymocyte selection, induces thymocyte death via purinoceptor activation. We show that ATP(ec) induced cell death by apoptosis, rather than lysis, and early phosphatidylserine (PS) exposure and phospholipid scrambling in a limited thymocyte population (35-40%). PS externalization resulted from the activation of the cationic channel P2X7 (formerly P2Z) receptor and was triggered in all thymocyte subsets although to different proportions in each one. Phospholipid movement was dependent on ATP(ec)-induced Ca(2+) and/or Na(+) influx. At physiological external Na(+) concentration, without external Ca(2+), PS was exposed in all ATP(ec)-responsive cells. In contrast, without external Na(+), physiological external Ca(2+) concentration promoted a submaximal response. Altogether these data show that Na(+) influx plays a major role in the rapid PS exposure induced by P2X7 receptor activation in thymocytes.     

In situ hybridization in suspension and flow cytometry as a tool for the study of gene expression.

We describe a method to detect mRNA expression using in situ hybridization in suspension and flow cytometry. Our model was glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene expression in the leukemic cell line K562. A GAPDH cDNA probe was labeled with digoxigenin-11-dUTP and detected using an FITC-labeled anti-digoxigenin antiserum. We obtained good resolution in specific signals against background (GAPDH signal/control plasmid signal ratio +/- SE 3.5 +/- 0.9). The technique was optimized taking into account several hybridization variables, like fixation, hybridization time, effect of blocking agents, and stringency wash variations. This method also allowed us to quantitate the GAPDH RNA copy number/cell using a fluorescence standard; we obtained a figure of about 1200 copies/cell, which is in good agreement with the dot blot hybridization assay result. Flow cytometric analysis of in situ hybridization represents an original method to study gene expression. This technique has the potential to develop into a multiparametric tool for cell biology studies, examining specific mRNA production together with DNA content or membrane molecules expression, and offering the possibility to purify by sorting a cell population expressing a specific mRNA.     

Nitrophenylphosphate as a tool to characterize gill Na, K-ATPase activity in hyperregulating Crustacea

The kinetic properties of a gill Na(+), K(+)-ATPase from the freshwater shrimp Macrobrachium olfersii were studied using p-nitrophenylphosphate (PNPP) as a substrate. Sucrose gradient centrifugation of the microsomal fraction revealed a single protein fraction that hydrolyzed PNPP. The Na(+), K(+)-ATPase hydrolyzed PNPP (K(+)-phosphatase activity) obeying Michaelis-Menten kinetics with K(M)=1.72+/-0.06 mmol l(-1) and V(max)=259.1+/-11.6 U mg(-1). ATP was a competitive inhibitor of K(+)-phosphatase activity with a K(i)=50.1+/-2.5 micromol l(-1). A cooperative effect for the stimulation of the enzyme by potassium (K(0.5)=3.62+/-0.18 mmol l(-1); n(H)=1.5) and magnesium ions (K(0.5)=0.61+/-0.02 mmol l(-1), n(H)=1.3) was found. Sodium ions had no effect on K(+)-phosphatase activity up to 1.0 mmol l(-1), but above 80 mmol l(-1) inhibited the original activity by approximately 75%. In the range of 0-10 mmol l(-1), sodium ions did not affect stimulation of the K(+)-phosphatase activity by potassium ions. Ouabain (K(i)=762.4+/-26.7 micromol l(-1)) and orthovanadate (K(i)=0.25+/-0.01 micromol l(-1)) completely inhibited the K(+)-phosphatase activity, while thapsigargin, oligomycin, sodium azide and bafilomycin were without effect. These data demonstrate that the activity measured corresponds to that of the K(+)-phosphatase activity of the Na(+), K(+)-ATPase alone and suggest that the use of PNPP as a substrate to characterize K(+)-phosphatase activity may be a useful technique in comparative osmoregulatory studies of Na(+), K(+)-ATPase activities in crustacean gill tissues, and for consistent comparisons with well known mechanistic properties of the vertebrate enzyme.     

Neuroprotection of exercise: P2X4R and P2X7R regulate BDNF actions

The neurotrophin brain-derived neurotrophic factor (BDNF), which acts as a transducer, is responsible for improving cerebral stroke, neuropathic pain, and depression. Exercise can alter extracellular nucleotide levels and purinergic receptors in central nervous system (CNS) structures. This inevitably activates or inhibits the expression of BDNF via purinergic receptors, particularly the P2X receptor (P2XR), to alleviate pathological progression. In addition, the significant involvement of sensitive P2X4R in mediating increased BDNF and p38-MAPK for intracerebral hemorrhage and pain hypersensitivity has been reported. Moreover, archetypal P2X7R blockade induces mouse antidepressant-like behavior and analgesia by BDNF release. This review summarizes BDNF-mediated neural effects via purinergic receptors, speculates that P2X4R and P2X7R could be priming molecules in exercise-mediated changes in BDNF, and provides strategies for the protective mechanism of exercise in neurogenic disease.