Combined Effects of ATP on the Therapeutic Efficacy of Antimicrobial Drug Regimens against Mycobacterium avium Complex Infection in Mice and Roles of Cytosolic Phospholipase A sub(2)-Dependent Mechanisms in the ATP-Mediated Potentiation of Antimycobacterial Host Resistance

ATP, which serves as a mediator of intramacrophage signaling pathways through purinoceptors, is known to potentiate macrophage antimycobacterial activity. In this study we examined the effects of ATP in potentiating host resistance to Mycobacterium avium complex (MAC) infection in mice undergoing tr...

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Veröffentlicht in:	Journal of Immunology 2005-11, Vol.175 (10), p.6741-6749
Hauptverfasser:	Tomioka, Haruaki, Sano, Chiaki, Sato, Katsumasa, Ogasawara, Keiko, Akaki, Tatsuya, Sano, Keisuke, Cai, Shan Shan, Shimizu, Toshiaki
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Sprache:	eng
Schlagworte:	Mycobacterium avium
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creator	Tomioka, Haruaki Sano, Chiaki Sato, Katsumasa Ogasawara, Keiko Akaki, Tatsuya Sano, Keisuke Cai, Shan Shan Shimizu, Toshiaki
description	ATP, which serves as a mediator of intramacrophage signaling pathways through purinoceptors, is known to potentiate macrophage antimycobacterial activity. In this study we examined the effects of ATP in potentiating host resistance to Mycobacterium avium complex (MAC) infection in mice undergoing treatment with a drug regimen using clarithromycin and rifamycin and obtained the following findings. First, the administration of ATP in combination with the clarithromycin and rifamycin regimen accelerated bacterial elimination in MAC-infected mice without causing changes in the histopathological features or the mRNA expression of pro- or anti-inflammatory cytokines from those in the mice not given ATP. Second, ATP potentiated the anti-MAC bactericidal activity of macrophages cultivated in the presence of clarithromycin and rifamycin. This effect of ATP was closely related to intracellular Ca super(2+) mobilization and was specifically blocked by a cytosolic phospholipase A sub(2) (cPLA sub(2)) inhibitor, arachidonyl trifluoromethylketone. Third, intramacrophage translocation of membranous arachidonic acid molecules to MAC-containing phagosomes was also specifically blocked by arachidonyl trifluoromethylketone. In the confocal microscopic observation of MAC-infected macrophages, ATP enhanced the intracellular translocation of cPLA sub(2) into MAC-containing phagosomes. These findings suggest that ATP increases the host anti-MAC resistance by potentiating the antimycobacterial activity of host macrophages and that the cPLA sub(2)-dependent generation of arachidonic acid from the phagosomal membrane is essential for such a phenomenon.
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In this study we examined the effects of ATP in potentiating host resistance to Mycobacterium avium complex (MAC) infection in mice undergoing treatment with a drug regimen using clarithromycin and rifamycin and obtained the following findings. First, the administration of ATP in combination with the clarithromycin and rifamycin regimen accelerated bacterial elimination in MAC-infected mice without causing changes in the histopathological features or the mRNA expression of pro- or anti-inflammatory cytokines from those in the mice not given ATP. Second, ATP potentiated the anti-MAC bactericidal activity of macrophages cultivated in the presence of clarithromycin and rifamycin. This effect of ATP was closely related to intracellular Ca super(2+) mobilization and was specifically blocked by a cytosolic phospholipase A sub(2) (cPLA sub(2)) inhibitor, arachidonyl trifluoromethylketone. Third, intramacrophage translocation of membranous arachidonic acid molecules to MAC-containing phagosomes was also specifically blocked by arachidonyl trifluoromethylketone. In the confocal microscopic observation of MAC-infected macrophages, ATP enhanced the intracellular translocation of cPLA sub(2) into MAC-containing phagosomes. 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Third, intramacrophage translocation of membranous arachidonic acid molecules to MAC-containing phagosomes was also specifically blocked by arachidonyl trifluoromethylketone. In the confocal microscopic observation of MAC-infected macrophages, ATP enhanced the intracellular translocation of cPLA sub(2) into MAC-containing phagosomes. These findings suggest that ATP increases the host anti-MAC resistance by potentiating the antimycobacterial activity of host macrophages and that the cPLA sub(2)-dependent generation of arachidonic acid from the phagosomal membrane is essential for such a phenomenon.</abstract></addata></record>
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subjects	Mycobacterium avium
title	Combined Effects of ATP on the Therapeutic Efficacy of Antimicrobial Drug Regimens against Mycobacterium avium Complex Infection in Mice and Roles of Cytosolic Phospholipase A sub(2)-Dependent Mechanisms in the ATP-Mediated Potentiation of Antimycobacterial Host Resistance
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