Induction of the respiratory burst in HL-60 cells. Correlation of function and protein expression

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Induction of the respiratory burst in HL-60 cells. Correlation of function and protein expression

R Levy, D Rotrosen, O Nagauker, TL Leto and HL Malech
Bacterial Diseases Section, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD 20892.

Differentiation of myeloid cells is associated with the gradual acquisition of functional capacity to produce a respiratory burst. In our study HL-60 cells were differentiated to the monocyte phenotype with IFN-gamma or 1,25-dihydroxyvitamin D3, or to the neutrophil phenotype with retinoic acid or DMSO to compare the time-course of expression of membrane and cytosolic oxidase components, and to correlate this with the appearance of a functional oxidase. Over a 6- day period of induction the rank order of the ability of these agents to induce expression of PMA-stimulated superoxide production was: IFN- gamma greater than 1,25(OH)2D3 greater than retinoic acid greater than DMSO. Immunoblot analysis of HL-60 membranes and cytosol was used to assess the amount of specific phagocyte oxidase factors (91 and 22 kDa subunits of membrane cytochrome b558 (gp91 and p22), and 47 and 67 kDa cytosol oxidase factors (p47 and p67)). HL-60 cell membranes or cytosol were tested in a cell-free assay of superoxide production by mixing with normal neutrophil cytosol or membranes, respectively. p47 was first detected at 16 h of differentiation, increasing similarly thereafter with all induction regimens and reaching a maximum by 3 to 4 days. The earliest detection of p67 varied from 2 to 6 days depending on the inducing agent and appeared to be the limiting cytosol component. Small amounts of both subunits of cytochrome b558 were detected in uninduced HL-60 membranes, but were sufficient to support substantial superoxide production when combined with normal neutrophil cytosol. Both cytochrome b558 subunit proteins and membrane oxidase activity increased during differentiation in parallel. We conclude that membrane and cytosol components of the NADPH oxidase complex appear at different times and increase differently during HL-60 differentiation. The production of p67 is the major factor limiting the respiratory burst during HL-60 differentiation.

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				R. Kakar, B. Kautz, and E. A. Eklund JAK2 is necessary and sufficient for interferon-{gamma}-induced transcription of the gene encoding gp91PHOX J. Leukoc. Biol., January 1, 2005; 77(1): 120 - 127. [Abstract] [Full Text] [PDF]

				I. F. Liberty, L. Raichel, Z. Hazan-Eitan, I. Pessach, N. Hadad, F. Schlaeffer, and R. Levy Cytosolic phospholipase A2 is responsible for prostaglandin E2 and leukotriene B4 formation in phagocyte-like PLB-985 cells: studies of differentiated cPLA2-deficient PLB-985 cells J. Leukoc. Biol., July 1, 2004; 76(1): 176 - 184. [Abstract] [Full Text] [PDF]

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				S.-L. Li, A. J. Valente, M. Qiang, W. Schlegel, M. Gamez, and R. A. Clark Multiple PU.1 sites cooperate in the regulation of p40phox transcription during granulocytic differentiation of myeloid cells Blood, May 29, 2002; 99(12): 4578 - 4587. [Abstract] [Full Text] [PDF]

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Induction of the respiratory burst in HL-60 cells. Correlation of function and protein expression

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				S.-Y. Choi, H. Ha, and K.-T. Kim Capsaicin Inhibits Platelet-Activating Factor-Induced Cytosolic Ca2+ Rise and Superoxide Production J. Immunol., October 1, 2000; 165(7): 3992 - 3998. [Abstract] [Full Text] [PDF]

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				E. A. Eklund and R. Kakar Recruitment of CREB-Binding Protein by PU.1, IFN-Regulatory Factor-1, and the IFN Consensus Sequence-Binding Protein Is Necessary for IFN-{gamma}-Induced p67phox and gp91phox Expression J. Immunol., December 1, 1999; 163(11): 6095 - 6105. [Abstract] [Full Text] [PDF]

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				M. Rosenblat, P. Belinky, J. Vaya, R. Levy, T. Hayek, R. Coleman, S. Merchav, and M. Aviram Macrophage Enrichment with the Isoflavan Glabridin Inhibits NADPH Oxidase-induced Cell-mediated Oxidation of Low Density Lipoprotein. A POSSIBLE ROLE FOR PROTEIN KINASE C J. Biol. Chem., May 14, 1999; 274(20): 13790 - 13799. [Abstract] [Full Text] [PDF]