Ectonucleotidase

Purinergic signalling
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Simplified illustration of extracellular purinergic signalling
Concepts
Purinergic signalling Receptors Pannexins Ectonucleotidases Metabolism
Membrane transporters
Nucleoside transporters Concentrative Equilibrative

Ectonucleotidases consist of families of nucleotide metabolizing enzymes that are expressed on the plasma membrane and have externally oriented active sites. These enzymes metabolize nucleotides to nucleosides. The contribution of ectonucleotidases in the modulation of purinergic signaling depends on the availability and preference of substrates and on cell and tissue distribution.^[1]

Classification

Subfamilies of ectonucleotidases include: CD39/NTPDases (ecto-nucleotide triphosphate diphosphohydrolases), Nucleotide pyrophosphatase/phosphodiesterase (NPP)-type ecto-phosphodiesterases, alkaline phosphatases and ecto-5’-nucleotidases/CD73.^[1]

Function

Ectonucleotidases produce key molecules for purine salvage and consequent replenishment of ATP stores within multiple cell types. Dephosphorylated nucleoside derivatives interact with membrane transporters to enable intracellular uptake. Ectonucleotidases modulate P2 purinergic signaling. In addition, ectonucleotidases generate extracellular adenosine, which abrogates nucleotide-mediated effects and activates adenosine receptors, often with opposing (patho-) physiological effects.^[2]

Adenosine generation

The first step in the production of adenosine involves the conversion of ATP/ADP to AMP. It is carried out by ENTPD1, also known as CD39. The second step involves the conversion of AMP to adenosine. It is carried out by NT5E, also known as CD73.^[3]

References

1 2 Beldi, G; Enjyoji, K; Wu, Y; Miller, L; Banz, Y; Sun, X; Robson, SC (Jan 1, 2008). "The role of purinergic signaling in the liver and in transplantation: effects of extracellular nucleotides on hepatic graft vascular injury, rejection and metabolism.". Frontiers in Bioscience. 13: 2588–603. doi:10.2741/2868. PMC 2892180. PMID 17981736.
↑ Roberts, V; Stagg, J; Dwyer, KM (2014). "The Role of Ectonucleotidases CD39 and CD73 and Adenosine Signaling in Solid Organ Transplantation.". Frontiers in immunology. 5: 64. doi:10.3389/fimmu.2014.00064. PMC 3927137. PMID 24600452.
↑ Eltzschig, Holger K.; Bonney, Stephanie K.; Eckle, Tobias (June 2013). "Attenuating myocardial ischemia by targeting A2B adenosine receptors". Trends in Molecular Medicine. 19 (6): 345–354. doi:10.1016/j.molmed.2013.02.005.

Purinergics

Receptor
(ligands)

P0
(adenine)

Agonists: 8-Aminoadenine
Adenine

P1
(adenosine)

Agonists: 2-(1-Hexynyl)-N-methyladenosine
2-Cl-IB-MECA
2'-MeCCPA
4'-O-β-D-Glucosyl-9-O-(6''-deoxysaccharosyl)olivil
5'-N-ethylcarboxamidoadenosine
Adenosine
ADP
AMP
Apadenoson
ATL-146e
ATP
BAY 60–6583
Binodenoson
Capadenoson
CCPA
CGS-21680
CP-532,903
Evodenoson
GR 79236
LUF-5835
LUF-5845
N⁶-Cyclopentyladenosine
Neladenoson dalanate
Piclidenoson
Regadenoson
SDZ WAG 994
Selodenoson
Sonedenoson
Tecadenoson
UK-432,097

P2
(nucleotide)

P2X (ATP)	Agonists: 2-Me-SATP α,β-Me-ATP Adenosine ADP AMP Ap4A Ap5A ATP ATPγS BzATP Cibacron blue CTP D-β,γ-Me-ATP GTP HT-AMP Ivermectin L-β,γ-Me-ATP MRS-2219 PAPET-ATP UTP Zinc Antagonists: 5-BDBD A-317491 A-438079 A-740003 A-804598 A-839977 AF-353 AZ-10606120 AZ-11645373 BBG Calcium Calmidazolium Chelerythrine Copper Emodin (Rheum officinale) Evans Blue GW-791343 HMA Ip5I isoPPADS JNJ-47965567 KN-04 KN-62 Magnesium MRS-2159 NF-023 NF-110 NF-157 NF-279 NF-449 Oxidized-ATP Phenol Red Phenolphthalein PPADS PPNDS PSB-12062 Puerarin (Radix puerariae) Purotoxin 1 RB-2 Ro 0437626 Ro 51 RO-3 Sodium ferulate (Angelica sinensis, Ligusticum wallichii) Suramin TC-P 262 Tetramethylpyrazine (ligustrazine) (Ligusticum wallichii) TNP-ATP Zinc

P2Y	Agonists: 2-Me-SADP 2-Me-SATP 2-Thio-UTP 5-Br-UDP 5-OMe-UDP α,β-Me-ATP Adenosine ADP ADPβS Ap3A AR-C 67085MX ATP ATPγS CTP dATP Denufosol Diquafosol IDP ITP INS-365 INS-37217 MRS-2365 MRS-2690 MRS-2693 MRS-2768 MRS-2957 MRS-4062 NF-546 PAPET-ATP PSB-0474 PSB-1114 UDP UDPβS UDP-galactose UDP-glucose UDP-N-acetylglucosamine Up3U UTP UTPγS Antagonists: 2-Me-SAMP A3P5PS AMPαS Ap4A AR-C 66096 AR-C 67085MX AR-C 69931MX AR-C 118925XX ATP BzATP C1330-7 Cangrelor Clopidrogel Elinogrel Ip5I MRS-2179 MRS-2211 MRS-2279 MRS-2395 MRS-2500 MRS-2578 NF-157 NF-340 PIT PPADS Prasugrel PSB-0739 RB-2 Regrelor Suramin Ticagrelor Ticlopidine UDP

Transporter
(blockers)

CNTs	6-Hydroxy-7-methoxyflavone Adenosine dMeThPmR Estradiol KGO-2142 KGO-2173 MeThPmR Phloridzin Progesterone

ENTs	Barbiturates Benzodiazepines Cilostazol Dilazep Dipyridamole Estradiol Ethanol Hexobendine NBMPR Pentoxifylline Progesterone Propentofylline

PMAT	Decynium-22

Enzyme
(inhibitors)

XO	Allopurinol Amflutizole Benzbromarone Caffeic acid Cinnamaldehyde Cinnamomum osmophloeum Febuxostat Myo-inositol Kaempferol Myricetin Niraxostat Oxypurinol Phytic acid Pistacia integerrima Propolis Quercetin Tisopurine Topiroxostat

Others	Aminopterin Azathioprine Methotrexate Mycophenolic acid Pemetrexed Pralatrexate Many others

Others

Others: Chrysophanol (rhubarb)

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