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Journal of Asthma Volume 44, 2007 - Issue 7
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ORIGINAL ARTICLE

Effect of TRFK-5 on Airway Responsiveness in Ovalbumin-Treated Guinea Pigs Exposed to Tobacco Smoke

Dale R. Bergren Department of Biomedical Sciences, Creighton University School of Medicine, Omaha, Nebraska, U.S.A
Pages 529-534 | Published online: 02 Jul 2009

References

  • Leuenberger P, Schwartz J, Ackermann-Liebrich U, Blaser K, Bolognini G, Bongard J P, Brandli O, Braun P, Bron C, Bruche M, Domenighetti G, Elsasser S, Guldimann P, Hollenstein C, Hufschmid P, Karrer W, Keller R, Keller-Wossidlo H, Kunzli N, Luthi J C, Martin B W, Medici T, Perruchoud P, Radaelli A, Schindler C, Schoeni M H, Solari G, Tschopp J M, Villiger B, Wuthrich B, Zellweger J P, Zemp E. Passive smoking exposure in adults and chronic respiratory symptoms (SAPALDA Study). Am J Respir Crit Care Med 1994; 150: 1222–1228
  • Althuis M D, Sexton M, Prbylski D. Cigarette smoking and asthma symptom severity among adult asthmatics. J Asthma 1999; 36: 257–264
  • Dahms T E, Bolin J F, Salvin R G. Passive smoking; effects on bronchial asthma. Chest 1981; 80: 530–534
  • Siroux V, Pin I, Oryszczyn M P, Le Moual N, Kauffmann F. Relationships of active smoking to asthma and asthma severity in the EGEA study. Epidemiological study on the genetics and environment of asthma. Eur Respir J 2000; 15: 470–477
  • Bergren D R. Chronic tobacco smoke exposure increases airway sensitivity to capsaicin in awake guinea pigs. J Appl Physiol 2001; 90: 695–704
  • Durham S R, Kay A B. Eosinophils, bronchial hyperreactivity and late-phase asthmatic reactions. Clin Allergy 1985; 15: 411–418
  • Thomas L H, Warner J A. The eosinophil and its role in asthma. Gen Pharmacol 1996; 27: 593–597
  • Wardlaw A J, Dunnett S, Gleich G H, Collins J V, Kay A B. Eosinophils and mast cells in bronchalveolar lavage in subjects with mild asthma: Relationship to bronchial hyperreactivity. Am Rev Respir Dis 1988; 137: 62–69
  • Ishida K, Kelly L K, Thomson R J, Beattie L L, Schellenberg R R. Repeated antigen challenge induces airway hyperresponsiveness with tissue eosinophilia in guinea-pigs. J Appl Physiol 1989; 67: 1133–1139
  • Rothenberg M E, Hogan S P. The Eosinophil. Annul Rev Immunol 2006; 24: 147–174
  • Piliponsky A M, Pickholtz D, Gleich G J, Levi-Schaffer F. Human eosinophils induce histamine release from antigen-activated rat peritoneal mast cells: A possible role for mast cells in late-phase allergic reactions. J Allergy Clin Immunol 2001; 107: 993–1000
  • Elbon C L, Jacoby D B, Fryer A D. Pretreatment with an antibody to interleukin-5 prevents loss of pulmonary M2 muscarinic receptor function in antigen-challenged guinea pigs. Am J Respir Cell Mol Biol 1995; 12: 320–328
  • Evans C M, Fryer A D, Jacoby D B, Gleich G J, Costello R W. Pretreatment with antibody to eosinophil major basic protein prevents hyperresponsiveness by protecting neuronal M2 muscarinic receptors in antigen-challenged guinea pigs. J Clin Inves 1997; 100: 2254–2262
  • MacKenzie J R, Mattes J, Dent L A, Foster P SJ. Eosinophils promote allergic disease of the lung by regulating CD4(+) Th2 lymphocyte function. J Immunol 2001; 167: 3146–3155
  • Shi H Z, Humbles A, Gerard C, Jin Z, Weller P F. Lymph node migration and antigen presentation by endobronchial eosinophils. J Clin Invest 2000; 105: 945–953
  • Yamaguchi Y, Hayashi Y, Sugama Y, Miura Y, Kasahara T, Kitamura S, Torisu M, Mita S, Tominaga A, Takatsu K. Highly purified murine interleukin 5 (IL-5) stimulates eosinophil function and prolongs in vitro survival. IL-5 as an eosinophil chemotactic factor. J Exp Med 1988; 167: 1737–1742
  • Gulbenkian A R, Egan R W, Fernandez X, Jones H, Kreutner W, Kung T, Payvandi F, Sullivan L, Zurdher J A, Watnick A S. Interleukin-5 modulates eosinophil accumulation in allergic guinea pig lung. Am Rev Respir Dis 1992; 146: 263–266
  • Kraneveld A D, van Ark I, Van Der Linde H J, Fattah D, Nijkamp F P, Van Oosterhout A J. Antibody to very late activation antigen 4 prevents interleukin-5-induced airway hyperresponsiveness and eosinophil infiltration in the airways of guinea pigs. J. Allergy Clin Immunol 1997; 100: 242–250
  • Mauser P J, Pitman A, Witt A, Fernandez X, Zurcher J, Kung T, Jones H, Watnick A S, Egan R W, Kreutner W, Adams G K, 3rd. Inhibitory effect of the TRFK-5 anti-IL-5 antibody in a guinea pig model of asthma. Am J Respir Crit Care Med 1993; 148: 1623–1627
  • Mauser P J, Pitman A M, Fernandez X, Foran S K, Adams G K, 3rd, Kreutner W, Egan R W, Chapman R W. Effects of an antibody to interleukin-5 in a monkey model of asthma. Am J Respir Crit Care Med 1995; 152: 467–472
  • Flood-Page P T, Menzies-Gow A N, Kay A B, Robinson D S. Eosinophil's role remains uncertain as anti-interleukin-5 only partially depletes numbers in asthmatic airway. Am J Respir Crit Care Med 2003; 167: 199–204
  • Leckie M J, ten Brinke A, Khan J, Diamant Z, O'Connor B J, Walls C M, Mathur A K, Cowley H C, Chung K F, Djukanovic R, Hansel T T, Holgate S T, Sterk P J, Barnes P J. Effects of an interleukin-5 blocking monoclonal antibody on eosinophils, airway hyper-responsiveness, and the late asthmatic response. Lancet 2000; 356: 2144–2148
  • Daffonchio L, Hernandez A, Gallico L, Omini C. Airway hyperreactivity induced by active cigarette smoke exposure in guinea-pigs: Possible role of sensory neuropeptides. Pul Pharmacol 1990; 3: 161–166
  • Dusser D J, Djokic T D, Borson D B. Cigarette smoke induces bronchoconstrictor hyperresponsiveness to substance P and inactivates airway neutral endopeptidase in the guinea pig: Possible role of free radicals. J Clin Invest 1989; 84: 900–906
  • Matsumoto K, Aizawa H, Inoue H, Shigyo M, Takata S, Hara N. Thromboxane causes airway hyperresponsiveness after cigarette smoke-induced neurogenic inflammation. J Appl Physiol 1996; 81: 2358–2364
  • Omini C, Hernandez A, Zuccari G, Clavenna G, Daffonchio L. Passive cigarette smoke exposure induces airway hyperreactivity to histamine but not acetylcholine in guinea pigs. Pulm Pharmacol 1990; 3: 145–150
  • Wu Z-X, Lee L-Y. Airway hyperresponsiveness induced by chronic exposure to cigarette smoke in guinea pigs: Role of tachykinins. J Appl Phyiol 1999; 87: 1621–1628
  • Wu Z-X, Zhou D, Chen G, Lee L-Y. Airway hyperresponsiveness to cigarette smoke in ovalbumin-sensitized guinea pigs. Am J Respir Crit Care Med 2000; 161: 73–80
  • Andersson P. Antigen-induced bronchial anaphylaxis in actively sensitized guinea pigs. Pattern of response in relation to immunization regimen. Allergy 1980; 35: 65–71
  • Hamelmann E, Schwarze J, Takeda K, Oshiba G, Larson G L, Irvin C G, Gelfand E W. Noninvasive measurement of airway responsiveness in allergic mice using barometric plethysmography. Am J Respir Crit Care Med 1997; 156: 766–775
  • Simon H U. Regulation of eosinophil and neutrophil apoptosis; similarities and differences. Immunol Rev 2001; 179: 156–162
  • Mould A W, Ramsay A H, Matthaei K I, Young I G, Rothenberg M E, Foster P S. The effect of IL-5 and eotaxin expression in the lung on eosinophil migration and degranulation and the induction of bronchial hyperreactivity. J Immonol 2000; 164: 2142–2150
  • Garlisi G C, Kung T T, Wang P, Minnicozzi M, Umland S P, Chapman R W, Stelts D, Crawley Y, Falcone A, Myers J G, Jones H, Billah M M, Kreutner W, Egan R W. Effects of chronic anti-interleukin-5 monoclonal antibody treatment in a murine model of pulmonary inflammation. Am J Respir Cell Mol Biol 1999; 20: 248–255
  • Tomaki M, Zhao L L, Mundahl J, Sjostrand M, Jordana M, Linden A, O'Byrne P, Lotvall J. Eosinophilopoiesis in a murine model of allergic airway eosinophilia: Involvement of bone marrow IL-5 and IL-5 receptor alpha. J Immunol 2000; 165: 4040–4050
  • Frigas E, Loegering D A, Gleich G J. Cytotoxic effects of the guinea pig eosinophil major basic protein on tracheal epithelium. Lab Inves 1980; 42: 35–43
  • MacPherson J C, Comhair S A, Erzurum S C, Klein D F, Lipscomb M F, Kavuru M S, Samoszuk K, Hazen S L. Eosinophils are a major source of nitric oxide-derived oxidants in severe asthma: Characterization of pathways available to eosinophils for generating reactive nitrogen species. J Immunol 2001; 166: 5763–5772
  • Metwali A, Blum A M, Ferraris L, Klein J S, Fiocchi C, Weinstock J V. Eosinophils with the healthy or inflamed human intestine produce substance P and vasoactive intestinal peptide. J Neuroimmunol 1994; 52: 69–78
  • O'Connor T M, O'Connell J, O'Brien D I, Goode T, Bredin C P, Shanahan F J. The role of substance P in inflammatory disease. J Cell Physiol 2004; 201: 167–180
  • Underwood D C, Osborn R R, Newsholme S J, Torphy T J, Hay D W. Persistent airway eosinophilia after leukotriene (LT) D4 administration in the guinea pig: Modulation by the LTD4 receptor antagonist, pranlukast, of an interleukin-5 monoclonal antibody. Am J Respir Crit Car Med 1996; 154: 850–857
  • Larangeira A P, Silva A R, Gomes R N, Penido C, Henriques M G, Castro-Faria-Neto H C, Bozza P T. Mechanisms of allergen- and LPS-induced bone marrow eosinophil mobilization and eosinophil accumulation into the pleural cavity: A role for CD11b/CD18 complex. Inflamm Res 2001; 50: 309–316
  • Rizzo C A, Yang R, Greenfeder S, Egan R W, Pauwels R A. The IL-5 receptor on human bronchus selectively primes for hyperresponsiveness. J Allergy Clin Immunol 2002; 109: 404–409
  • Bergren D. R. Sensory receptor activation by mediators of defense reflexes in guinea-pig lungs. Respir Physiol 1997; 108: 195–204
  • Barnes P J. Asthma as an axon reflex. Lancet 1986; 1: 242–245
  • Bergren D R. Capsaicin challenge, reflex bronchoconstriction and local action of substance P. Am J Physiol (Regulatory Integrative Comp Physiol) 1988; 254: R845–R852
  • Saria A, Martling C R, Yan Z, Theodorsson-Norheim E, Gamse R, Lundberg J M. Release of multiple tachykinins from capsaicin-sensitive sensory nerves in the lung by bradykinin, histamine, dimethylphenyl piperazinium, and vagal nerve stimulation. Am Rev Respir Dis 1988; 137: 1330–1335
  • el-Shazly A E, Masuyama K, Ishikawa T. Mechanisms involved in activation of human eosinophil exocytosis by substance P: An in vitro model of sensory neuroimmunomodulation. Immunol Invest 1997; 26: 615–629
  • Mutoh T, Bonham A C, Kott K S, Joad J P. Chronic exposure to sidestream tobacco smoke augements lung C-fiber responsiveness in young guinea pigs. J Appl Physiol 1999; 87: 757–768
  • Bergren D R. Enhanced lung C-fiber responsiveness in sensitized adult guinea pigs exposed to chronic tobacco smoke. J Appl Physiol 2001; 91: 1645–1654
  • Kraneveld A D, Nijkamp F P, Van Oosterhout A J. Role for neurokinin-2 receptor in interleukin-5-induced airway hypresponsiveness but not eosinophilia in guinea pigs. Am J Respir Car Med 1997; 156: 367–374
  • Foster P S, Hogan S P, Ramsay A J, Matthaei K I, Young I G. Interleukin 5 deficiency abolishes eosinophilia, airways hyperreactivity, and lung damage in a mouse asthma model. J Exp Med 1996; 183: 195–201
  • Corry D B, Folkesson G, Warnock M L, Erle D J, Matthay M A, Wiener-Kronish J P, Locksley R MJ. Interleukin 4, but not interleukin 5 or eosinophils, is required in a murine model of acute airway hyperreactivity. Exp Med 1996; 183: 109–117
  • Hamelmann E, Oshiba G, Loader J, Larson G L, Gleich J, Lee J, Gelfand E W. Antiinterleukin-5 antibody prevents airway hyperresponsiveness in a murine model of airway sensitization. Am J Respir Crit Care Med 1997; 155: 819–825
  • Kips J C, O'Connor B J, Langley S J, Woodcock A, Kerstjens H AM, Postma D S, Danzig M, Cuss F, Pawels R S. Effect of SCH55700, a humanized anti-human interleulin-5 antibody, in severe persistent asthma. Am J Respir Crit Care Med 2003; 167: 1655–1659

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