Article date: July 1994
By: James S. Wiley, Joan R. Chen, Marie B. Snook, Gary P. Jamieson, in Volume 112, Issue 3, pages 946-950
Extracellular adenosine triphosphate (ATP) is known to open a receptor‐operated ion channel (P2Z class) in human lymphocytes which conducts a range of cationic permeants. The activity of a range of different agonists and inhibitors towards the P2Z‐purinoceptor was investigated by measuring the agonist‐induced influx of Ba2+ into fura‐2 loaded lymphocytes.
The most potent agonist was 2′ & 3′‐0‐(4‐benzoylbenzoyl)‐ATP (benzoylbenzoic ATP) which gave 2 fold greater maximum Ba2+ influx and had a 10 fold lower EC50 than for ATP. The rank order of agonist potency in K+‐media was benzoylbenzoic ATP>>ATP = 2‐methylthio ATP = 2‐chloro ATP>ATP‐γ‐S. ADP, UTP and α,β‐methylene ATP were unable to stimulate Ba2+ influx.
Extracellular Na+ inhibited the increment of Ba2+ influx induced by all concentrations of ATP, 2‐methylthio ATP, 2‐chloroATP and ATP‐γ‐S. This inhibitory effect of extracellular Na+ is also reflected in the different EC50s for benzoylbenzoic ATP (8 μm in K+‐media, 18 μm in Na+‐media) but the maximal response to this agonist was the same in the presence or absence of Na+.
Treatment of lymphocytes with 2,3 dialdehyde ATP (oxidized ATP) at 300 μm for 60 min gave total and irreversible inhibition of ATP‐induced Ba2+ influx. 5′‐p‐Fluorosulphonyl benzoyladenosine (FSBA) also was an irreversible inhibitor but the maximal inhibition achieved was 90%.
It is concluded that the P2Z‐purinoceptor of human lymphocytes has a rank order of agonist potency which clearly distinguishes it from other P2‐receptors and that oxidized ATP is a convenient irreversible inhibitor for the P2Z‐purinoceptor.
Extracellular adenosine triphosphate (ATP) is known to open a receptor‐operated ion channel (P2Z class) in human lymphocytes which conducts a range of cationic permeants. The activity of a range of different agonists and inhibitors towards the P2Z‐purinoceptor was investigated by measuring the agonist‐induced influx of Ba2+ into fura‐2 loaded lymphocytes.
The most potent agonist was 2′ & 3′‐0‐(4‐benzoylbenzoyl)‐ATP (benzoylbenzoic ATP) which gave 2 fold greater maximum Ba2+ influx and had a 10 fold lower EC50 than for ATP. The rank order of agonist potency in K+‐media was benzoylbenzoic ATP>>ATP = 2‐methylthio ATP = 2‐chloro ATP>ATP‐γ‐S. ADP, UTP and α,β‐methylene ATP were unable to stimulate Ba2+ influx.
Extracellular Na+ inhibited the increment of Ba2+ influx induced by all concentrations of ATP, 2‐methylthio ATP, 2‐chloroATP and ATP‐γ‐S. This inhibitory effect of extracellular Na+ is also reflected in the different EC50s for benzoylbenzoic ATP (8 μm in K+‐media, 18 μm in Na+‐media) but the maximal response to this agonist was the same in the presence or absence of Na+.
Treatment of lymphocytes with 2,3 dialdehyde ATP (oxidized ATP) at 300 μm for 60 min gave total and irreversible inhibition of ATP‐induced Ba2+ influx. 5′‐p‐Fluorosulphonyl benzoyladenosine (FSBA) also was an irreversible inhibitor but the maximal inhibition achieved was 90%.
It is concluded that the P2Z‐purinoceptor of human lymphocytes has a rank order of agonist potency which clearly distinguishes it from other P2‐receptors and that oxidized ATP is a convenient irreversible inhibitor for the P2Z‐purinoceptor.
DOI: 10.1111/j.1476-5381.1994.tb13172.x
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