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Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils

Year 2015, Volume: 11 Issue: 2, 69 - 77, 19.12.2015
https://doi.org/10.18466/cbujos.35974

Abstract

Neutrophils are essential components of the immune system and have a critical role in combating bacterial and fungal infections. A key weapon in the neutrophil armory is the “respiratory burst,” which is the generation of reactive oxygen species (ROS) by a multicomponent oxidase complex. It is well established that pre-exposure of human neutrophils to proinflammatory cytokines and chemokines markedly augments the production of reactive oxygen species (ROS) to subsequent stimuli. In inflammatory reactions there are complex interactions of protein mediators (cytokines) and mediators derived from lipids. An important event in inflammation is superoxide production, in relation to microbicidal activity as well as tissue damage. A better understanding of phenomena involved in the regulation of NADPH oxidase could help developing novel therapeutic agents for inflammatory diseases involving abnormal neutrophil superoxide. Therefore, stimulating superoxide production by human neutrophils was investigated for this reason and because it sheds a light on intracellular signals that activate this response. Pretreatment of human neutrophils with N-formyl-methionyl-leucyl-phenylalanine (fMLP), interleukin-8 (IL-8), and regulated on activation, normal T cell expressed and secreted (RANTES) markedly augmented the amount of superoxide anion produced, which was inhibited completely (IL-8 and fMLP) or partially (RANTES) by a specific isoform of phosphoinositide 3-kinase (PI3K), the PI3KγII inhibitor.

References

  • References
  • -Haslett C, Savill JS, Meagher L (1989). The neutrophil. Curr Opin Immunol.;2:10-18.
  • Babior BM (1999). NADPH oxidase: an update. Blood. ;93:1464-1476.
  • Cross AR, Segal AW (2004). The NADPH oxidase of professional phagocytes-prototype of the NOX electron transport chain systems. Biochimica et Biophysica Acta. 1657:1-22.
  • Arcaro A, Wymann MP (1993). Wortmannin is a potent phosphatidylinositol 3-kinase inhibitor: the role of phosphatidylinositol 3,4,5-trisphosphate in neutrophil responses. Biochem J. 296:297-301.
  • Sasaki T, Irie-Sasaki J, Jones RG, et al. (2000). Function of PI3Kgamma in thymocyte development, T cell activation, and neutrophil migration. Science 287:1040-1046.
  • Li Z, Jiang H, Xie W, Zhang Z, Smrcka AV, Wu D (2000). Roles of PLC-2 and -3 and PI3K_ in chemoattractant-mediated signal transduction. Science 287:1046-1049.
  • Hirsch E, Katanaev VL, Garlanda C, et al. (2000). Central role for G protein-coupled phosphoinositide 3-kinase gamma in inflammation. Science 287:1049-1053.
  • Gougerot-Pocidalo MA1, el Benna J, Elbim C, Chollet-Martin S, Dang MC (2002). Regulation of human neutrophil oxidative burst by pro- and anti-inflammatory cytokines.
  • J soc. Biol2002;196(1):37-46.
  • Vanhaesebroeck B, Leevers SJ, Ahmadi K, et al. Synthesis and function of 3-phosphorylated inositol lipids. Ann Rev Biochem. 2001;70:535-602.
  • Brat, D.J., Bellail, A.C. and Van Meir, E.G. (2005) The role of Interleukin- 8 and its receptors
  • in gliomagenesis and tumoral angiogenesis, Neuro-oncol, Vol. 7:122-33.
  • Holmes, W.E., Lee, J., Kuang, W.J., Rice, G.C. and Wood, W.I. (1991) Structure and
  • functional expression of a human interleukin-8 receptor, Science, Vol. 253:1278-80.
  • Murphy, P.M. and Tiffany, H.L. (1991) Cloning of a complimentary DNA encoding a
  • functional human interleukin-8 receptor, Science, Vol. 253:1280-3.
  • A. Wozniak, W. H. Betts, G. A. Murphy & M. Rokicinski (1993). Interleukin-8 primes human neutrophils for enhanced superoxide anion production. Immunology Rheumatology 79 608-615.
  • Tracey, K.J. (2002). The inflammatory reflex, Nature, Vol. 420:853–9.
  • Carp H. (1982). Mitochondrial N-formylmethionyl proteins as chemoattractants for neutrophils. J. Exp. Med. 155:264–275.
  • Marasco W.A., Phan S.H., Krutzsch H., Showell H.J., Feltner D.E., Nairn R, Becker E.L., Ward P.A. (1984). Purification and identification of formyl-methionyl-leucyl-phenylalanine as the major peptide neutrophil chemotactic factor produced by Escherichia coli. J. Biol. Chem. 259:5430–5439.
  • Becker E.L., Forouhar F.A., Grunnet M.L., Boulay F., Tardif M., B ormann B.J., Sodia D., Ye R.D., Woska J.R., Murphy P.M. (1998). Broad immunocytochemical localization of the formylpeptide receptor in human organs, tissues, and cells. Cell Tissue Res. 292:129–135.
  • Bouly F et al., (1990). The human N-formylpeptide receptor: characterization of two cDNA isolates and evidence for a new subfamily of G-protein-coupled receptors. Biochemistry 29:11123-11133.
  • Rita Selvatici, Sofia Falzarano, Adriano Mollica, Susanna Spisani (2006). Signal transduction pathways triggered by selective formylpeptide analogues in human neutrophils. European Journal of Pharnacology 534; 1-11.
  • Gursant Kular, Michael loubtchenkov, Phil Swigart, jackie Whatmore, Andrew Ball, Shamshad Cockcroft and Rinhard Wetzker (1997). Co-operation of phosphatidylinositol transfer protein with phosphoinositide 3-kinase γ in the formylmethionyl-leucylphenylalanine-dependent production of phosphatidylinositol 3,4,5-trisphosphate in human neutrophils. Biochem. J. 325, 299–301.
  • Zlotnik, A. and Yoshie, O. (2000) Chemokines: a new classification system and their role
  • in immunity, Immunity, 12:121–127.
  • Hebert, C. (1999) Chemokines In Diseases, Immunol., 60: 26–33.
  • Meurer, R. (1993) Formation of eosinophilic and monocytic intradermal inflammatory
  • sites in the dog by injection of human RANTES but not human monocyte chemoattractant
  • protein 1, human macrophage inflammatory protein 1 alpha, or human interleukin 8, J. Exp.
  • Med., 178: 1913–1921.
  • Zhong-Zong Pan, Lisa Parkyn, Anuradha Ray, Prabir Ray (2000). Inducible lung-specific expression of RANTES: preferential recruitment of neutrophil. Lung Cellular and Molecular Physiology Published American Journal of Physiology Vol. 279 no. 4, L658-L666
  • Gordon Dent, Nilda M. Muñoz, Elke Rühlmann, Xiangdong Zhu, Alan R. Leff, Helgo Magnussen, and Klaus F. Rabe (1998). Protein Kinase C Inhibition Enhances Platelet-activating Factor-induced Eicosanoid Production in Human Eosinophils. Am. J. Respir. Cell Mol. Biol. Vol. 18, pp. 136–144, 199.
  • Gwenny, M. F., Lyndsay, A. D. and Edo, V. (2003) Decreased phosphorylation of protein
  • kinase B and extracellular signal-regulated kinase in neutrophils from patients with
  • myelodysplasia. Blood, Vol. 101: 1172-1180.
  • Kobayashi, S. D., Voyich, J. M., Braughton, K. R., Braughton, K. R., Whitney, A. R.,
  • Nauseef, W. M., Malech, H. L. and DeLeo, F. R., (2004) Gene expression profiling provides
  • insight into the pathophysiology of chronic granulomatous disease, J Immunol, Vol. 172:
  • -643.
  • R. K. Mishra , J. E. Scaife , Z. Harb , B. C. Gray , R. Djukanovic , G. Dent (2005). Differential dependence of eosinophil chemotactic responses on phosphoinositide 3-kinase (PI3K). Allergy 2005: 60: 1204–1207
  • Craig Murdoch and Adam Finn (2000). Chemokine receptors and their role in inflammation and infectious diseases. Blood, volume 95, number10
  • T. Sasaki, J. Irie-Sasaki, R.G. Jones, A.J. Oliveira-dos-Santos,W.L. Stanford, B. Bolon, A. Wakeham, A. Itie, D. Bouchard, I. Kozieradzki, N. Joza, T.W. Mak, P.S. Ohashi, A. Suzuki, J.M.Penninger (2000). Function of PI3Kgamma in thymocyte development, T-cell activation, and neutrophil migration, Science 287 (2000) 1040–1046.
  • Z. Li, H. Jiang, W. Xie, Z. Zhang, A.V. Smrcka, D. Wu (2000). Roles of PLC-beta2 and -beta3 and PI3Kgamma in chemoattractantmediated signal transduction, Science 287 1046–1049.
  • Burg N, Pillinger M. (2001). The neutrophil: function and regulation in innate and humoral immunity. Clin Immunol, 99(1):7-17.
  • Suire, S., Coadwell, J., Ferguson, G. J., Davidson, K., Hawkins, P. and Stephens, L.
  • (2005). p84, a new Gβγ-activated regulatory subunit of the type IB phosphoinositide 3-kinase
  • p110γ, Vol. Curr Biol, vol. 15: 566–570.
  • Jones, S.A., Dewald, B., Clark-Lewis, I. and Baggiolini, M. (1997) Chemokine
  • antagonists that discriminate between interleukin-8 receptors. Selective blockers of CXCR2,
  • J Biol Chem, Vol. 272:16166–9.
  • Li, Z., Jiang, H., Xie, W., Zhang, Z., Smrcka, A.V. and Wu, D. (2000) Roles of PLC-
  • beta2 and -beta3 and PI3Kgamma in chemoattractant-mediated signal transduction, Science,
  • Vol. 287: 1046-1049.
  • Appay V, Brown A, Cribbes S, Randle E, Czaplewski LG. (1999) Aggregation of RANTES is responsible for its inflammatory properties. Characterization of nonaggregating, noninflammatory RANTES mutants. J Biol Chem 274:27505–27512.
  • Bonecchi R, Polentarutti N, Luini W, Borsatti A, Bernasconi S, Locati M, Power C, Proudfoot A, Wells TN, Mackay C, Mantovani A, Sozzani S. (1999) Up-regulation of CCR1 and CCR3 and induction of chemotaxis to CC chemokines by IFN-γ in human neutrophils. J Immunol 162:474–479.
  • Watson AD, Nicholson A, Pearson MR (1996). Use anti-inflammatory and analgesic drug in dogs and cats. Aust Vet J 1996; 74(3):203-10.
  • Bandeira-Melo, C.; Phoofolo, M.; Weller, P. F. (2001). Extranuclear lipid bodies, elicited by CCR3-mediated signaling pathways, are the sites of chemokine-enhanced leukotriene C4 production in eosinophils and basophils. Journal of biological chemistry, v. 276, n. 25, p. 22779-22787.
  • Fayard E, Xue G, Parecellier A, Bozulic L, Hemmings BA (2010). Protein kinase B
  • (PKB/Akt), a key mediator of the PI3K signaling pathway. Curr Top Microbiol Immunol 346:31-56.
Year 2015, Volume: 11 Issue: 2, 69 - 77, 19.12.2015
https://doi.org/10.18466/cbujos.35974

Abstract

References

  • References
  • -Haslett C, Savill JS, Meagher L (1989). The neutrophil. Curr Opin Immunol.;2:10-18.
  • Babior BM (1999). NADPH oxidase: an update. Blood. ;93:1464-1476.
  • Cross AR, Segal AW (2004). The NADPH oxidase of professional phagocytes-prototype of the NOX electron transport chain systems. Biochimica et Biophysica Acta. 1657:1-22.
  • Arcaro A, Wymann MP (1993). Wortmannin is a potent phosphatidylinositol 3-kinase inhibitor: the role of phosphatidylinositol 3,4,5-trisphosphate in neutrophil responses. Biochem J. 296:297-301.
  • Sasaki T, Irie-Sasaki J, Jones RG, et al. (2000). Function of PI3Kgamma in thymocyte development, T cell activation, and neutrophil migration. Science 287:1040-1046.
  • Li Z, Jiang H, Xie W, Zhang Z, Smrcka AV, Wu D (2000). Roles of PLC-2 and -3 and PI3K_ in chemoattractant-mediated signal transduction. Science 287:1046-1049.
  • Hirsch E, Katanaev VL, Garlanda C, et al. (2000). Central role for G protein-coupled phosphoinositide 3-kinase gamma in inflammation. Science 287:1049-1053.
  • Gougerot-Pocidalo MA1, el Benna J, Elbim C, Chollet-Martin S, Dang MC (2002). Regulation of human neutrophil oxidative burst by pro- and anti-inflammatory cytokines.
  • J soc. Biol2002;196(1):37-46.
  • Vanhaesebroeck B, Leevers SJ, Ahmadi K, et al. Synthesis and function of 3-phosphorylated inositol lipids. Ann Rev Biochem. 2001;70:535-602.
  • Brat, D.J., Bellail, A.C. and Van Meir, E.G. (2005) The role of Interleukin- 8 and its receptors
  • in gliomagenesis and tumoral angiogenesis, Neuro-oncol, Vol. 7:122-33.
  • Holmes, W.E., Lee, J., Kuang, W.J., Rice, G.C. and Wood, W.I. (1991) Structure and
  • functional expression of a human interleukin-8 receptor, Science, Vol. 253:1278-80.
  • Murphy, P.M. and Tiffany, H.L. (1991) Cloning of a complimentary DNA encoding a
  • functional human interleukin-8 receptor, Science, Vol. 253:1280-3.
  • A. Wozniak, W. H. Betts, G. A. Murphy & M. Rokicinski (1993). Interleukin-8 primes human neutrophils for enhanced superoxide anion production. Immunology Rheumatology 79 608-615.
  • Tracey, K.J. (2002). The inflammatory reflex, Nature, Vol. 420:853–9.
  • Carp H. (1982). Mitochondrial N-formylmethionyl proteins as chemoattractants for neutrophils. J. Exp. Med. 155:264–275.
  • Marasco W.A., Phan S.H., Krutzsch H., Showell H.J., Feltner D.E., Nairn R, Becker E.L., Ward P.A. (1984). Purification and identification of formyl-methionyl-leucyl-phenylalanine as the major peptide neutrophil chemotactic factor produced by Escherichia coli. J. Biol. Chem. 259:5430–5439.
  • Becker E.L., Forouhar F.A., Grunnet M.L., Boulay F., Tardif M., B ormann B.J., Sodia D., Ye R.D., Woska J.R., Murphy P.M. (1998). Broad immunocytochemical localization of the formylpeptide receptor in human organs, tissues, and cells. Cell Tissue Res. 292:129–135.
  • Bouly F et al., (1990). The human N-formylpeptide receptor: characterization of two cDNA isolates and evidence for a new subfamily of G-protein-coupled receptors. Biochemistry 29:11123-11133.
  • Rita Selvatici, Sofia Falzarano, Adriano Mollica, Susanna Spisani (2006). Signal transduction pathways triggered by selective formylpeptide analogues in human neutrophils. European Journal of Pharnacology 534; 1-11.
  • Gursant Kular, Michael loubtchenkov, Phil Swigart, jackie Whatmore, Andrew Ball, Shamshad Cockcroft and Rinhard Wetzker (1997). Co-operation of phosphatidylinositol transfer protein with phosphoinositide 3-kinase γ in the formylmethionyl-leucylphenylalanine-dependent production of phosphatidylinositol 3,4,5-trisphosphate in human neutrophils. Biochem. J. 325, 299–301.
  • Zlotnik, A. and Yoshie, O. (2000) Chemokines: a new classification system and their role
  • in immunity, Immunity, 12:121–127.
  • Hebert, C. (1999) Chemokines In Diseases, Immunol., 60: 26–33.
  • Meurer, R. (1993) Formation of eosinophilic and monocytic intradermal inflammatory
  • sites in the dog by injection of human RANTES but not human monocyte chemoattractant
  • protein 1, human macrophage inflammatory protein 1 alpha, or human interleukin 8, J. Exp.
  • Med., 178: 1913–1921.
  • Zhong-Zong Pan, Lisa Parkyn, Anuradha Ray, Prabir Ray (2000). Inducible lung-specific expression of RANTES: preferential recruitment of neutrophil. Lung Cellular and Molecular Physiology Published American Journal of Physiology Vol. 279 no. 4, L658-L666
  • Gordon Dent, Nilda M. Muñoz, Elke Rühlmann, Xiangdong Zhu, Alan R. Leff, Helgo Magnussen, and Klaus F. Rabe (1998). Protein Kinase C Inhibition Enhances Platelet-activating Factor-induced Eicosanoid Production in Human Eosinophils. Am. J. Respir. Cell Mol. Biol. Vol. 18, pp. 136–144, 199.
  • Gwenny, M. F., Lyndsay, A. D. and Edo, V. (2003) Decreased phosphorylation of protein
  • kinase B and extracellular signal-regulated kinase in neutrophils from patients with
  • myelodysplasia. Blood, Vol. 101: 1172-1180.
  • Kobayashi, S. D., Voyich, J. M., Braughton, K. R., Braughton, K. R., Whitney, A. R.,
  • Nauseef, W. M., Malech, H. L. and DeLeo, F. R., (2004) Gene expression profiling provides
  • insight into the pathophysiology of chronic granulomatous disease, J Immunol, Vol. 172:
  • -643.
  • R. K. Mishra , J. E. Scaife , Z. Harb , B. C. Gray , R. Djukanovic , G. Dent (2005). Differential dependence of eosinophil chemotactic responses on phosphoinositide 3-kinase (PI3K). Allergy 2005: 60: 1204–1207
  • Craig Murdoch and Adam Finn (2000). Chemokine receptors and their role in inflammation and infectious diseases. Blood, volume 95, number10
  • T. Sasaki, J. Irie-Sasaki, R.G. Jones, A.J. Oliveira-dos-Santos,W.L. Stanford, B. Bolon, A. Wakeham, A. Itie, D. Bouchard, I. Kozieradzki, N. Joza, T.W. Mak, P.S. Ohashi, A. Suzuki, J.M.Penninger (2000). Function of PI3Kgamma in thymocyte development, T-cell activation, and neutrophil migration, Science 287 (2000) 1040–1046.
  • Z. Li, H. Jiang, W. Xie, Z. Zhang, A.V. Smrcka, D. Wu (2000). Roles of PLC-beta2 and -beta3 and PI3Kgamma in chemoattractantmediated signal transduction, Science 287 1046–1049.
  • Burg N, Pillinger M. (2001). The neutrophil: function and regulation in innate and humoral immunity. Clin Immunol, 99(1):7-17.
  • Suire, S., Coadwell, J., Ferguson, G. J., Davidson, K., Hawkins, P. and Stephens, L.
  • (2005). p84, a new Gβγ-activated regulatory subunit of the type IB phosphoinositide 3-kinase
  • p110γ, Vol. Curr Biol, vol. 15: 566–570.
  • Jones, S.A., Dewald, B., Clark-Lewis, I. and Baggiolini, M. (1997) Chemokine
  • antagonists that discriminate between interleukin-8 receptors. Selective blockers of CXCR2,
  • J Biol Chem, Vol. 272:16166–9.
  • Li, Z., Jiang, H., Xie, W., Zhang, Z., Smrcka, A.V. and Wu, D. (2000) Roles of PLC-
  • beta2 and -beta3 and PI3Kgamma in chemoattractant-mediated signal transduction, Science,
  • Vol. 287: 1046-1049.
  • Appay V, Brown A, Cribbes S, Randle E, Czaplewski LG. (1999) Aggregation of RANTES is responsible for its inflammatory properties. Characterization of nonaggregating, noninflammatory RANTES mutants. J Biol Chem 274:27505–27512.
  • Bonecchi R, Polentarutti N, Luini W, Borsatti A, Bernasconi S, Locati M, Power C, Proudfoot A, Wells TN, Mackay C, Mantovani A, Sozzani S. (1999) Up-regulation of CCR1 and CCR3 and induction of chemotaxis to CC chemokines by IFN-γ in human neutrophils. J Immunol 162:474–479.
  • Watson AD, Nicholson A, Pearson MR (1996). Use anti-inflammatory and analgesic drug in dogs and cats. Aust Vet J 1996; 74(3):203-10.
  • Bandeira-Melo, C.; Phoofolo, M.; Weller, P. F. (2001). Extranuclear lipid bodies, elicited by CCR3-mediated signaling pathways, are the sites of chemokine-enhanced leukotriene C4 production in eosinophils and basophils. Journal of biological chemistry, v. 276, n. 25, p. 22779-22787.
  • Fayard E, Xue G, Parecellier A, Bozulic L, Hemmings BA (2010). Protein kinase B
  • (PKB/Akt), a key mediator of the PI3K signaling pathway. Curr Top Microbiol Immunol 346:31-56.
There are 61 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Anwar Hasan This is me

Sawsan Mahassni This is me

Majidah Aljadani This is me

Hanan Alowaydhi This is me

Hayam Alwabsi This is me

Publication Date December 19, 2015
Published in Issue Year 2015 Volume: 11 Issue: 2

Cite

APA Hasan, A., Mahassni, S., Aljadani, M., Alowaydhi, H., et al. (2015). Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, 11(2), 69-77. https://doi.org/10.18466/cbujos.35974
AMA Hasan A, Mahassni S, Aljadani M, Alowaydhi H, Alwabsi H. Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils. CBUJOS. December 2015;11(2):69-77. doi:10.18466/cbujos.35974
Chicago Hasan, Anwar, Sawsan Mahassni, Majidah Aljadani, Hanan Alowaydhi, and Hayam Alwabsi. “Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and FMLP in Human Peripheral Blood Neutrophils”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 11, no. 2 (December 2015): 69-77. https://doi.org/10.18466/cbujos.35974.
EndNote Hasan A, Mahassni S, Aljadani M, Alowaydhi H, Alwabsi H (December 1, 2015) Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 11 2 69–77.
IEEE A. Hasan, S. Mahassni, M. Aljadani, H. Alowaydhi, and H. Alwabsi, “Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils”, CBUJOS, vol. 11, no. 2, pp. 69–77, 2015, doi: 10.18466/cbujos.35974.
ISNAD Hasan, Anwar et al. “Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and FMLP in Human Peripheral Blood Neutrophils”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 11/2 (December 2015), 69-77. https://doi.org/10.18466/cbujos.35974.
JAMA Hasan A, Mahassni S, Aljadani M, Alowaydhi H, Alwabsi H. Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils. CBUJOS. 2015;11:69–77.
MLA Hasan, Anwar et al. “Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and FMLP in Human Peripheral Blood Neutrophils”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, vol. 11, no. 2, 2015, pp. 69-77, doi:10.18466/cbujos.35974.
Vancouver Hasan A, Mahassni S, Aljadani M, Alowaydhi H, Alwabsi H. Involvement of PI3Kγ in Superoxide Anion Production in Response to IL-8, RANTES, and fMLP in Human Peripheral Blood Neutrophils. CBUJOS. 2015;11(2):69-77.