Salivary gland P2 nucleotide receptors structure and function studies /

Landon, Linda A. Neighbors

January 1998

Thesis (Ph. D.)--University of Missouri--Columbia, 1998. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Salivary gland P2 nucleotide receptors structure and function studies /

Landon, Linda A. Neighbors

January 1998

Thesis (Ph. D.)--University of Missouri--Columbia, 1998. / Includes bibliographical references.

Estimating the distribution and production of microplankton in a coastal upwelling front from the cellular content of guanosine-5 triphosphate and adenosine-5 triphosphate

Jori, Carol Diane.

January 1981

Thesis (M.S.)--Naval Postgraduate School, 1981. / Cover title. "September 1981." Includes bibliographical references (leaves 108-120).

The sympathetic cotransmitters neuropeptide Y and ATP in the regulation of the vascular smooth muscle cell mitogenic effects, receptors and second messengers : aspects on clinical patophysiology /

Erlinge, David.

January 1994

Thesis (doctoral)--Lund University, 1994. / Added t.p. with thesis statement inserted.

ATP mimics as glutamine synthetase inhibitors : an exploratory synthetic study

Salisu, Sheriff Tomilola

January 2008

Using a mechanism-based approach to drug discovery, efforts have been directed towards developing novel ATP mimics that can act as GS inhibitors. The purine-based systems, adenosine, adenine and allopurinol, were identified as possible scaffolds for potential ATP mimics, while various meta-disubstituted benzenoid compounds, 3-aminobenzonitrile, 3-aminophenol, resorcinol, 3-aminobenzyl alcohol, 3-hydroxybenzoic acid and 3-aminobenzoic acid have been explored as adenine analogues. These compounds were treated with different alkylating and acylating agents. Allylation of all the substrates was achieved using allyl bromide and N-9 alkylation of protected allopurinol was effected using a number of specially prepared Baylis-Hillman adducts. Acylation of the benzenoid precursors with chloroacetyl chloride, acetoxyacetyl chloride, acryloyl chloride and specially prepared 2,3,4,5,6-pentaacetylgluconoyl chloride afforded the corresponding mono- and /or diacylated products in varying yields (4-96%). Elaboration of the alkylated and acylated products has involved the reaction of hydroxy systems with diethyl chloro phosphate and chloro derivatives with triethyl phosphite in Arbuzov-type reactions to afford phosphorylated products. In all cases, products were fully characterized using 1- and 2-D NMR analysis and, where appropriate, high-resolution mass spectrometry. The application of Modgraph and ChemWindow NMR prediction programmes has been explored and the resulting data have been compared with experimental chemical shift assignments to confirm chemical structures and, in some cases, to establish the position of allylation or acylation. Experimental assignments were found to be generally comparable with the Modgraph data, but not always with the ChemWindow values. The docking of selected products in the 'active-site' of GS and their structural homology with ATP, both in their free and bound conformations have been studied using the ACCELERYS Cerius² platform. All the selected ATP mimics exhibit some form of interaction with the 'active-site' residues, and a number of them appear to be promising GS ligands.

Glutamine synthetase

Tuberculosis -- Treatment

Tuberculosis -- Chemotherapy

Adenosine triphosphate

Adenosine triphosphate -- Synthesis

Drug development

Synthèse d'analogues de l'adénosine-5'-triphosphate, agonistes potentiels du récepteur P2Y11

Dabeux, François

04 July 2008

L’ATP est l’agoniste naturel du récepteur P2Y11. Ce nucléotide ne peut cependant pas être utilisé comme agent thérapeutique car, in vivo, il s’hydrolyse rapidement en ADP ou en AMP qui ne possèdent qu’une faible activité pour le récepteur. D’où l’intérêt de disposer d’analogues de synthèse moins sensibles à l’hydrolyse et possédant une affinité égale ou supérieure à celle de l’ATP.<p><p>Le premier objectif que nous nous sommes fixés au cours de notre thèse de doctorat fut de mettre au point un schéma de synthèse permettant d’obtenir des analogues de l’adénosine-5’-triphosphate [1] portant un motif thioalkyle ou thioaryle en position 2 de la base ainsi qu’un groupement dichlorométhylène entre les phosphores b et g & / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Chimie

Adenosine triphosphate -- Synthesis

Nucleotides

Phosphorylation

Adénosine triphosphate -- Synthèse

Nucléotides

Phosphorylation

récepteur P2Y11

adénosine-5'-triphosphate

nucléotides

synthèse

On the mechanisms of regulation of the IP3R activity by its interaction with Bcl-2 / Mécanismes de régulation de l’activité de l’IP3R par son interaction avec Bcl-2

Ritaine, Abigaël

28 June 2018

L’homéostasie calcique est régulée par de nombreux canaux ioniques, parmi lesquels des canaux intracellulaires perméables au Ca2+, comme l’IP3R. Récemment, la protéine Bcl-2 a été montré comme régulant l’activité de ce canal ionique. Cependant, les acteurs moléculaires précis de cette interaction ne sont pas très bien établis. Ici nous montrons grâce à une nouvelle technique que l’IP3R est inhibé par le domaine BH4 de Bcl-2 et que ce domaine est nécessaire et suffisant pour inhiber son activité. De plus, la liaison de l’ABT-199 dans la poche hydrophobe de Bcl-2 conduit à un changement de structure du domaine BH4. Le niveau d’expression des différentes isoformes d’IP3R ainsi que des protéines Bcl-2 et Bcl-xL ont été étudié dans différentes lignées cancéreuses prostatiques. De manière intéressante, l’expression du récepteur à l’IP3 de type 3 (IP3R3) est augmentée en fonction de l’agressivité des lignées cancéreuses prostatiques. De plus, nous pouvons observer un effet important de l’IP3R3 sur la migration et l’invasion des lignées humaines de cancer de la prostate. Globalement, ces données montrent que l’IP3R3 participe à l’augmentation du potentiel métastatique des cellules cancéreuses prostatiques. Par conséquent, l’IP3R3 peut être un marqueur diagnostic intéressant ainsi qu’une cible thérapeutique, notamment pour les stades avancés de cancer de la prostate. / Calcium homeostasis is regulated by various ion channels, among which intracellular Ca2+-permeable channels, such as IP3R. Lately, Bcl-2 protein have been shown to regulate this ion channel activity. However, the study of the functional properties of IP3R in interaction with Bcl-2 is not a straightforward procedure and the molecular players implicated in that interaction are still not well established. Here, we show with the use of a new electrophysiological method, that the IP3R is inhibited by Bcl-2 via its BH4 domain and that the BH4 domain of Bcl-2 can inhibit by itself the single channel activity of the IP3R. Moreover, the binding of the ABT-199 in the hydrophobic groove of Bcl-2 leads to a tail-flip structural change in BH4 domain. We also studied the expression level of different IP3R isoforms as well as Bcl-2 and Bcl-xL protein in different prostate cancer cell lines. Interestingly, IP3R type 3 (IP3R3) expression is increased according the aggressiveness of prostate cancer cell lines. Indeed, IP3R3 was expressed preferentially in highly aggressive prostate cancer cell lines. Moreover, we can observe an significantly important effect of the IP3R3 on migration and invasion properties of human prostate cancer cell lines. Our study also revealed that IP3R3 was not involved in viability, proliferation. Overall, these data provide evidence on IP3R3 contribution to the increased metastatic potential of human prostate cancer cells. Therefore, IP3R3 could provide new perspective molecular target for the disease suppression, in particular at its advances stages.

Protéine Bcl-2

571.978

Studies of the human lymphocyte P2Z receptor and its activation of phospholipase D.

Gargett, Caroline Eve, mikewood@deakin.edu.au

January 1997

Extracellular adenosine 5′-triphosphate (ATP) is an agonist for the P2Z receptor of human leukaemic lymphocytes and opens a Ca ²⁺-selective ion channel, which also conducts Ba²⁺, Sr²⁺ and the small fluorescent dye, ethidium⁺. A wide range of receptor agonists, many of which raise cytosolic [Ca²⁺] activate phospholipase D (PLD). In the present study, it was shown that both ATP and 3′-O-(4-benzoylbenzoyl)-ATP (BzATP) stimulated PLD activity in a concentration-dependent manner, and the inhibitory effects of suramin, oxidised ATP, extracellular Na⁺ and Mg²⁺ suggested that the effect of these agonists is mediated by P2Z receptors. The role of divalent cations in ATP-stimulated PLD activity was investigated. Several agonists (eg ATP, thapsigargin, ionomycin) stimulated a rise in cytosolic [Ca²⁺] in human lymphocytes, but only ATP and ionomycin stimulated PLD activity. When Ca²⁺ influx was prevented by EGTA, the majority of ATP-stimulated and all of ionomycin-stimulated PLD activity was inhibited. Preloading cells with the Ca²⁺ chelator, BAPTA, reduced cytosolic [Ca²⁺] and, paradoxically, ATP-stimulated PLD activity was potentiated. ATP-stimulated PLD activity was supported by both Ba²⁺ and Sr²⁺ when they were substituted for extracellular Ca²⁺. Furthermore, both ATP-stimulated PLD activity and ATP-stimulated ¹³³Ba²⁺ influx showed a linear dependence on extracellular [Ba²⁺]. Thus it was concluded that ATP stimulated PLD activity in direct proportion to the influx of divalent cations through the P2Z ion channel and this PLD activity was insensitive to changes in bulk cytosolic [Ca²⁺]. The calmodulin (Ca²⁺/CaM) inhibitor, trifluoperazine (TFP) inhibited ionomycin- and ATP-stimulated PLD activity and ATP-stimulated apoptosis, but had no effect on PLD activity already activated by ATP. However, TFP inhibited ATP-stimulated Ca²⁺, Ba²⁺ and ethidium⁺ fluxes, at concentrations below those which inhibit Ca²⁺/CaM, suggesting that TFP inhibits the P2Z receptor. Similarly, the isoquinolinesulphonamide, KN-62, a selective inhibitor of Ca²⁺/CaM-dependent protein kinase II (CaMKII), also prevented ATP-stimulated apoptosis, but had no effect on pre-activated PLD. In addition, KN-62, and an analogue, KN-04, which has no effect on CaMKII, potently inhibited ATP-stimulated Ba²⁺ influx (IC₅₀ 12.7 ± 1.5 and 17.3 ± 2.7 nM, respectively), ATP-stimulated ethidium⁺ uptake (IC₅₀ 13.1 ± 2.6 and 37.2 ± 8.9 nM, respectively), ATP-stimulated phospholipase D activity (50% inhibition 5.9 ± 1.2 and 9.7 ± 2.8 nM, respectively) and ATP-induced shedding of the surface adhesion molecule, L-selectin (IC₅₀ 31.5 ± 4.5 and 78.7 ± 10.8 nM, respectively). They did not inhibit phorbol ester- or ionomycin-stimulated PLD activity or phorbol ester-induced L-selectin shedding. Neither KN-62 nor KN-04 (both 500 nM) have any effect on UTP-stimulated Ca²⁺ transients in fura-2-loaded human neutrophils, a response which is mediated by the P2Y₂ receptor, neither did they inhibit ATP-stimulated contractile responses mediated by the P2X₁ receptor of guinea pig urinary bladder. Thus, KN-62 and KN-04 are almost equipotent as P2Z inhibitors with IC₅₀s in the nanomolar, indicating that their actions cannot be due to CaMKII inhibition, but rather that they are potent and direct inhibitors of the P2Z receptor. Extracellular ATP-induced shedding of L-selectin from lymphocytes into the medium is a Ca²⁺-independent response. L-selectin is either cleaved by a metalloproteinase or a PLD with specificity for glycosylphosphatidylinositol (GPI). The novel hydroxamic acid-based zinc chelator, Ro-31-9790 blocks ATP-induced L-selectin shedding, but was without effect on ATP-induced Ba²⁺ influx or ATP-stimulated PLD activity. Furthermore, another zinc chelator, 1,10-phenanthroline, an inhibitor of a GPI-PLD, potentiated rather than inhibited ATP-stimulated PLD activity, suggesting that ATP-induced L-selectin shedding and ATP-stimulated PLD activity are independent of each other. Although extracellular ATP is the natural ligand for the lymphocyte P2Z receptor, it is less potent than BzATP in stimulating Ba²⁺ influx. Concentration-response curves for BzATP- and ATP-stimulated ethidium⁺ influx gave EC₅₀s 15.4 ± 1.4 µM and 85.6 ± 8.8 µM, respectively. The maximal response to ATP was only 69.8 ± 1.9% of that for BzATP. Hill coefficients were 3.17 ± 0.24 and 2.09 ± 0.45 for BzATP and ATP respectively, suggesting greater positive cooperativity for BzATP than for ATP in opening the P2Z-operated ion channel. A rank order of agonist potency of BzATP > ATP = 2MeSATP > ATPγS was observed for agonist-stimulated ethidium⁺ influx, while maximal influxes followed a rank order of BzATP > ATP > 2MeSATP > ATPγS. When ATP (300 -1000 µM) was added simultaneously with 30 µM BzATP (EC₉₀), it reduced both ethidium⁺ and Ba²⁺ fluxes by 30 - 40% relative to values observed with BzATP alone. KN-62, previously shown to be a specific inhibitor of the lymphocyte P2Z receptor, was a less potent antagonist of BzATP-induced fluxes than ATP, when maximal concentrations of both agonists (50 and 500 µM respectively) were used. However, when BzATP (18 µM) was used at a concentration equiactive with a maximally effective ATP concentration, KN-62 showed the same inhibitory potency for both agonists. The ecto-ATPase antagonist, ARL-67156, inhibited both ATP- and BzATP-stimulated Ba²⁺ influx, suggesting that the lower efficacy of ATP compared with BzATP was not due to preferential hydrolysis of ATP. Thus, the natural ligand, ATP, is a partial agonist for the P2Z receptor while BzATP is a full agonist. Moreover the competitive studies show that only a single class of P2-receptor (P2Z class) is expressed on human leukaemic lymphocytes. Both ATP- and BzATP-stimulated PLD activity were significantly inhibited (P < 0.05) when cells were suspended in iso-osmotic choline Cl medium. Choline⁺ was found to be a permeant for the P2Z ion channel, since ATP induced a large uptake of [¹⁴C]choline⁺ (60 to 150 µmol/ml intracellular water) during a 5 min incubation, which remained in the cells for several hours, and ATP was used to load cells with these levels of choline⁺. Intracellular choline⁺ inhibited ATP-, BzATP-, PMA- and ionomycin-stimulated PLD activity. Brief exposure of lymphocytes to ATP increased the subsequent basal rate of ethidium⁺ uptake, and this was prevented by intracellular choline⁺. It is proposed that P2Z-mediated Ca²⁺ influx in lymphocytes activates PLD leading to significantly changes of the phospholipid composition of the plasma membrane, which subsequently produces a permeability lesion, which in turn contributes to cell death.

adenosine triphosphate

receptors

lymphocytes

human lymphocyte

P2Z receptors

phospholipase D

Effect of visible and near-infrared light on adenosine triphosphate (atp)

Amat Genís, Albert

18 April 2005

L' ATP es una molecula clau en el metabolisme cel.lular, actuant com a donador d'energia lliure i acoplant reaccions endergoniques i exergoniques. L'ATP es sintetitzat a la mitocondria en un proces anomenat fosforil.lacio oxidativa despres d'una serie de reaccions a la cadena de citocroms que es troba en la membrana interna de l'organel.la. La font d'energia necessaria per aquesta sintesi s'obte en les cel.lules animals dels nutrients de l'ingestio, i de la llum solar en les plantes. Existeix una via alternativa de sintesi d'ATP extramitocondrial, la glicolisi, que s'inicia amb la fosforilacio de la glucosa per l'enzim hexokinasa.Interaccio llum-materiaL'energia electromagnetica l'ona de la qual oscil.la en una longitud d'ona de nanometres es anomenada llum. En aquestes frequencies, l'energia promou excitacio electronica de certs atoms i molecules. Existeix una interaccio diferent de la llum amb molecules, produida per el camp electromagnetic que per definicio la llum provoca en qualsevol medi. El camp electric resultant desplaca els electrons dels enllacos quimics produint una polaritzacio del medi sense que existeixi absorcio de l'energia. Aquest es un mecanisme interactiu que existeix sempre, i es l'unic que es dona en molecules que son transparents (no absorbeixen) per a una determinada frequencia de la llum, com es el cas de l'ATP per l'energia visible i infravermella propera. Experiments, resultats i discussioQuan l'ATP es excitat amb fotons ultraviolats, es produiex una fluorescencia en longituts d'ona visibles. L'io magnesi s'ha utilitzat per estudiar com la llum visible i infravermella propera produiex un desplacament de carregues electriques a la molecula d'ATP. La construccio d'un interferometre de Michelson ha servit per observar l'interaccio no absortiva de la llum i l'ATP. La mesura directa de l'index de refraccio d'una solucio d'ATP dona informacio sobre les caracteristiques electriques del medi. L'observacio de que aquest index canvia despres d'irradiar la solucio amb longituds d'ona visibles i infravermelles properes, confirmen que la llum provoca canvis electrics significatius en l'ATP. En aquest treball tambe s'ha estudiat el comportament bioquimic de l'ATP irradiat quant forma part de dues reaccions quimiques diferents: la de la luciferina-luciferasa i la de la hexoquinasa. En tots dos casos, l'us d'aquest ATP irradiat ha produit una alteracio dels parametres cinetics estudiats, V0 i k en la reaccio de la luciferina-luciferasa, i km i vmax en la reaccio de l'hexoquinasa.ConclusionsAquesta interaccio no absortiva de la llum amb l'ATP es la primera descrita per a una biomolecula. El mecanisme aporta noves dades per explicar els efectes observats en el metabolisme cel.lular despres de l'irradiacio d'organismes, teixits i cultius cel.lulars amb llum visible i infravermella propera. / ATP is a key molecule in cellular metabolism. In this thesis, I examined the effects of visible (635 and 655 nm) and near-infrared (810 and 830 nm) light on ATP in solution. I also examined were the biochemical behavior of light-exposed ATP in the luciferine-luciferase reaction and hexokinase reaction, the initial step in glycolysis that begins extra mithocondrial ATP synthesis. Irradiated groups in the luciferine-luciferase reaction showed an improvement in the kinetic parameters V0 and k, and more ATP molecules reacted with the enzyme when they were excited by light. When irradiated ATP was added to the hexokinase reaction, the experimental groups showed significant differences in the Michaelis-Menten kinetic parameters (km for ATP and vmax) and the rate of product synthesis was greater. Changes in both reactions were wavelength and dose dependant. When ATP was excited with UV photons, it fluoresced. This fluorescence decreased when Mg2+ was added, probably because the ion binds the phosphates, which are the part of the molecule responsible for light emission. Irradiating the ATP-Mg2+ solution with 655 nm and 830 nm light increased the fluorescence resulting from a displacement of charges in the phosphor-oxygen bond that repels Mg2+. The refraction of light in an ATP solution was observed by the Michelson interferometer and by directly measuring the refractive index. The refractive index changed after red and near-infrared light interaction due to a change in the electrical permittivity of the medium. Since ATP in water is transparent to visible and near-infrared light, and is therefore not a chromophore for those wavelengths, I conclude that the observed light interaction with ATP is not due to photon absorption but to the electromagnetic disturbance produced by the light, which leads to a polarization of the dielectric molecule that is ATP. This interaction of visible and near-infrared electromagnetic energy with ATP offers new perspectives for explaining light interaction at subcellular level.

refractive index

adenosine triphosphate (atp)

Laser

537

577

6

61

Mechanisms involved in the release of ATP from skeletal myoblasts at low pH

Lu, Lin, 鹿琳

January 2012

Lactic acid, which induces pH depression, leads to ATP efflux from muscle to extracellular space: it was reported that CFTR was involved in this process. However, the mechanism by which lactic acid activated CFTR and brought about the ATP release is still unknown. This study was performed to investigate (1) what channels may be involved or even conduct ATP release, and (2) how lactic acid activated CFTR. Expression of the possible channels that may conduct ATP release in L6 cells was investigated using RT-PCR: ClC-2, ClC-3, ClC-7, CACC, VDAC, connexin 40, connexin 43 and pannexin 3 were expressed in L6. Incubation of cultured L6 cells with lactic acid (10 mM) increased the extracellular ATP from 0.6 ± 0.06 to 1.1 ± 0.09 nM (P ? 0.05), indicating that lactic acid stimulated ATP efflux in vitro. The non-specific chloride channel inhibitor, DIDS, failed to abolish the lactic-acid-induced ATP release, suggesting that DIDS-sensitive chloride channels were not involved in the ATP efflux. Among the non-specific inhibitors of connexin channels, gadolinium inhibited acidosis-induced ATP efflux, but carbenoxolone failed to inhibit it, and so the role of connexins remains uncertain. The specific inhibitor of CFTR, CFTRinh-172, and the non-specific open-channel blocker of CFTR, glibenclamide, both abolished the acidosis-induced ATP release, but another specific inhibitor of CFTR, GlyH-101, which blocks CFTR from the external side, failed to abolish the ATP release, suggesting that acidosis-induced ATP is dependent on CFTR-activation, but does not involve ATP moving through the CFTR chloride channel. We hypothesize that, at low pH, the Na+/H+ exchanger (NHX) extruded H+ out of the cell and the resulting intracellular Na+ was transported out by Ca2+/Na+ exchanger (NCX); the localized increase in Ca2+ activated adenyl cyclase (AC), thus elevating intracellular cAMP; cAMP-activated-PKA then phosphorylated CFTR, which regulated an ATP release channel. KT-5720, an inhibitor of PKA, abolished the acidosis-induced ATP release, and forskolin, an agent that elevates cAMP, stimulated it, suggesting that the cAMP/PKA pathway was involved. The specific inhibitor of NCX, SN-6 and KB-R7943, both abolished the acidosis-induced ATP release, supporting a role for NCX in mediating this process. However, amiloride, the non-specific inhibitor of NHX failed to abolish ATP efflux. The whole cell Cl- currents were studied in L6 cells: lactic acid increased the whole cell currents from 2.33 ± 0.10 to 3.54 ± 0.34 nA (P ? 0.05), and this lactic-acid-induced increase in Cl- current could be inhibited by CFTRinh-172, suggesting that the CFTR Cl- channel was opened at low pH. Moreover, forskolin increased whole cell Cl- currents, which supported a role for the cAMP/PKA pathway in the lactic-acid-induced increase in CFTR current. These data confirm that CFTR is involved in the lactic-acid-induced ATP release from L6 cells. The roles of the NCX and cAMP/PKA pathway in activating CFTR at low pH are supported, but further studies are required to determine whether the NHX is involved in CFTR activation and whether connexins participate in ATP release. / published_or_final_version / Physiology / Master / Master of Philosophy

Lactic acid - Physiological effects.

Adenosine triphosphate.

Cystic fibrosis.

Chloride channels.