ATP-Induced Killing of Mycobacteria by Human Macrophages Is Mediated by Purinergic P2Z(P2X 7) Receptors

ATP-Induced Killing of Mycobacteria by Human Macrophages Is Mediated by Purinergic P2Z(P2X 7) Receptors

The death of BCG-infected human macrophages induced in vitro by ligation of surface CD95 (Fas), CD69, or complement-mediated lysis was shown not to result in the death of intracellular mycobacteria, whereas exposure to extracellular ATP initiated both macrophage death and killed the intracellular ba...

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Veröffentlicht in:Immunity (Cambridge, Mass.) Mass.), 1997-09, Vol.7 (3), p.433-444
Hauptverfasser: Lammas, D.A., Stober, C., Harvey, C.J., Kendrick, N., Panchalingam, S., Kumararatne, D.S.
Format: Artikel
Sprache:eng
Schlagworte:
Adenosine Triphosphate - pharmacology
Cells, Cultured
Humans
Macrophages - cytology
Macrophages - microbiology
Macrophages - physiology
Mycobacterium
Mycobacterium bovis - immunology
Nitrogen - metabolism
Nitrogen - physiology
Phagocytosis
Reactive Oxygen Species - metabolism
Reactive Oxygen Species - physiology
Receptors, Purinergic P2 - physiology
Receptors, Purinergic P2X7
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Zusammenfassung:The death of BCG-infected human macrophages induced in vitro by ligation of surface CD95 (Fas), CD69, or complement-mediated lysis was shown not to result in the death of intracellular mycobacteria, whereas exposure to extracellular ATP initiated both macrophage death and killed the intracellular bacteria. ATP acted via P2Z receptors because these effects were mimicked by benzoylbenzoic ATP (a known agonist of P2Z receptors) and blocked by oxidized ATP, DIDS, suramin, amiloride, and KN62 (known inhibitors of P2Z-mediated responses). ATP-mediated bacterial killing was independent of reactive nitrogen and oxygen intermediates and of actinomycin D or cycloheximide inhibition. ATP-induced macrophage cell death, BCG killing, and lucifer yellow dye incorporation were minimal in 2 out of 19 healthy donors. The results suggest possible genetic heterogeneity of this mechanism of mycobacterial killing associated with P2Z-mediated pore formation.
ISSN:1074-7613
1097-4180
DOI:10.1016/S1074-7613(00)80364-7