Early biomarkers and potential mediators of ventilation-induced lung injury in very preterm lambs
详细信息    查看全文
  • 作者:Megan J Wallace (1)
    Megan E Probyn (1)
    Valerie A Zahra (1)
    Kelly Crossley (1)
    Timothy J Cole (2)
    Peter G Davis (3)
    Colin J Morley (3)
    Stuart B Hooper (1)
  • 刊名:Respiratory Research
  • 出版年:2009
  • 出版时间:December 2009
  • 年:2009
  • 卷:10
  • 期:1
  • 全文大小:1797KB
  • 参考文献:1. Coalson JJ: g class="a-plus-plus">Pathology of new bronchopulmonary dysplasia.g> / Semin Neonatol 2003, g class="a-plus-plus">8:g>73-1. g/10.1016/S1084-2756(02)00193-8">CrossRef
    2. Gerstmann DR, Minton SD, Stoddard RA, Meredith KS, Monaco F, Bertrand JM, / et al.: g class="a-plus-plus">The Provo multicenter early high-frequency oscillatory ventilation trial: improved pulmonary and clinical outcome in respiratory distress syndrome.g> / Pediatrics 1996, g class="a-plus-plus">98:g>1044-057.
    3. Stewart TE, Meade MO, Cook DJ, Granton JT, Hodder RV, Lapinsky SE, / et al.: g class="a-plus-plus">Evaluation of a ventilation strategy to prevent barotrauma in patients at high risk for acute respiratory distress syndrome.g> / N Engl J Med 1998, g class="a-plus-plus">338:g>355-61. g/10.1056/NEJM199802053380603">CrossRef
    4. Keszler M, Modanlou HD, Brudno DS, Clark FI, Cohen RS, Ryan RM, / et al.: g class="a-plus-plus">Multicenter controlled clinical trial of high-frequency jet ventilation in preterm infants with uncomplicated respiratory distress syndrome.g> / Pediatrics 1997, g class="a-plus-plus">100:g>593-99. g/10.1542/peds.100.4.593">CrossRef
    5. Tsuno K, Prato P, Kolobow T: g class="a-plus-plus">Acute lung injury from mechanical ventilation at moderately high airway pressures.g> / J Appl Physiol 1990, g class="a-plus-plus">69:g>956-61.
    6. Parker JC, Hernandez LA, Peevy KJ: g class="a-plus-plus">Mechanisms of ventilator-induced lung injury.g> / Crit Care Med 1993, g class="a-plus-plus">21:g>131-43. g/10.1097/00003246-199301000-00024">CrossRef
    7. Dreyfuss D, Saumon G: g class="a-plus-plus">Ventilator-induced lung injury: lessons from experimental studies.g> / Am J Respir Crit Care Med 1998, g class="a-plus-plus">157:g>294-23.
    8. Bose CL, Dammann CE, Laughon MM: g class="a-plus-plus">Bronchopulmonary dysplasia and inflammatory biomarkers in the premature neonate.g> / Arch Dis Child Fetal Neonatal Ed 2008, g class="a-plus-plus">93:g>F455-F461. g/10.1136/adc.2007.121327">CrossRef
    9. Kotecha S, Chan B, Azam N, Silverman M, Shaw RJ: g class="a-plus-plus">Increase in interleukin-8 and soluble intercellular adhesion molecule-1 in bronchoalveolar lavage fluid from premature infants who develop chronic lung disease.g> / Arch Dis Child Fetal Neonatal Ed 1995, g class="a-plus-plus">72:g>F90-F96. g/10.1136/fn.72.2.F90">CrossRef
    10. Pugin J, Dunn I, Jolliet P, Tassaux D, Magnenat JL, Nicod LP, / et al.: g class="a-plus-plus">Activation of human macrophages by mechanical ventilation in vitro.g> / Am J Physiol 1998, g class="a-plus-plus">275:g>L1040-L1050.
    11. Kotecha S: g class="a-plus-plus">Cytokines in chronic lung disease of prematurity.g> / Eur J Pediatr 1996, g class="a-plus-plus">2:g>S14-S17. g/10.1007/BF01958074">CrossRef
    12. Held HD, Boettcher S, Hamann L, Uhlig S: g class="a-plus-plus">Ventilation-induced chemokine and cytokine release is associated with activation of nuclear factor-kappaB and is blocked by steroids.g> / Am J Respir Crit Care Med 2001, g class="a-plus-plus">163:g>711-16.
    13. Coalson JJ, Winter VT, Siler-Khodr T, Yoder BA: g class="a-plus-plus">Neonatal chronic lung disease in extremely immature baboons.g> / Am J Respir Crit Care Med 1999, g class="a-plus-plus">160:g>1333-346.
    14. Groneck P, Gotze-Speer B, Oppermann M, Eiffert H, Speer CP: g class="a-plus-plus">Association of pulmonary inflammation and increased microvascular permeability during the development of bronchopulmonary dysplasia: a sequential analysis of inflammatory mediators in respiratory fluids of high-risk preterm neonates.g> / Pediatrics 1994, g class="a-plus-plus">93:g>712-18.
    15. Ambalavanan N, Novak ZE: g class="a-plus-plus">Peptide Growth Factors in Tracheal Aspirates of Mechanically Ventilated Preterm Neonates.g> / Pediatr Res 2003, g class="a-plus-plus">53:g>240-44. g/10.1203/01.PDR.0000047656.17766.39">CrossRef
    16. Bjorklund LJ, Ingimarsson J, Curstedt T, Larsson A, Robertson B, Werner O: g class="a-plus-plus">Lung recruitment at birth does not improve lung function in immature lambs receiving surfactant.g> / Acta Anaesthesiol Scand 2001, g class="a-plus-plus">45:g>986-93. g/10.1034/j.1399-6576.2001.450811.x">CrossRef
    17. Bjorklund LJ, Ingimarsson J, Curstedt T, John J, Robertson B, Werner O, / et al.: g class="a-plus-plus">Manual ventilation with a few large breaths at birth compromises the therapeutic effect of subsequent surfactant replacement in immature lambs.g> / Pediatr Res 1997, g class="a-plus-plus">42:g>348-55. g/10.1203/00006450-199709000-00016">CrossRef
    18. Wada K, Jobe AH, Ikegami M: g class="a-plus-plus">Tidal volume effects on surfactant treatment responses with the initiation of ventilation in preterm lambs.g> / J Appl Physiol 1997, g class="a-plus-plus">83:g>1054-061.
    19. Allison BJ, Crossley KJ, Flecknoe SJ, Davis PG, Morley CJ, Harding R, / et al.: g class="a-plus-plus">Ventilation of the very immature lungg> g class="a-plus-plus">in uterog> g class="a-plus-plus">induces injury and BPD-like changes in lung structure in fetal sheep.g> / Pediatr Res 2008, (64)g class="a-plus-plus">:g>387-92.
    20. Brigstock DR: g class="a-plus-plus">The connective tissue growth factor/cysteine-rich 61/nephroblastoma overexpressed (CCN) family.g> / Endocr Rev 1999, g class="a-plus-plus">20:g>189-06. g/10.1210/er.20.2.189">CrossRef
    21. Molnar G, Crozat A, Pardee AB: g class="a-plus-plus">The immediate-early gene Egr-1 regulates the activity of the thymidine kinase promoter at the G0-to-G1 transition of the cell cycle.g> / Mol Cell Biol 1994, g class="a-plus-plus">14:g>5242-248.
    22. Sozo F, Wallace MJ, Zahra VA, Filby CE, Hooper SB: g class="a-plus-plus">Gene expression profiling during increased fetal lung expansion identifies genes likely to regulate development of the distal airways.g> / Physiol Genomics 2006, g class="a-plus-plus">24:g>105-13.
    23. Lasky JA, Ortiz LA, Tonthat B, Hoyle GW, Corti M, Athas G, / et al.: g class="a-plus-plus">Connective tissue growth factor mRNA expression is upregulated in bleomycin-induced lung fibrosis.g> / Am J Physiol 1998, g class="a-plus-plus">275:g>L365-L371.
    24. Pan LH, Yamauchi K, Uzuki M, Nakanishi T, Takigawa M, Inoue H, / et al.: g class="a-plus-plus">Type II alveolar epithelial cells and interstitial fibroblasts express connective tissue growth factor in IPF.g> / Eur Respir J 2001, g class="a-plus-plus">17:g>1220-227. g/10.1183/09031936.01.00074101">CrossRef
    25. Perkowski S, Sun J, Singhal S, Santiago J, Leikauf GD, Albelda SM: g class="a-plus-plus">Gene expression profiling of the early pulmonary response to hyperoxia in mice.g> / Am J Respir Cell Mol Biol 2003, g class="a-plus-plus">28:g>682-96. g/10.1165/rcmb.4692">CrossRef
    26. Ning W, Li CJ, Kaminski N, Feghali-Bostwick CA, Alber SM, Di YP, / et al.: g class="a-plus-plus">Comprehensive gene expression profiles reveal pathways related to the pathogenesis of chronic obstructive pulmonary disease.g> / Proc Natl Acad Sci USA 2004, g class="a-plus-plus">101:g>14895-4900. g/10.1073/pnas.0401168101">CrossRef
    27. Ma SF, Grigoryev DN, Taylor AD, Nonas S, Sammani S, Ye SQ, / et al.: g class="a-plus-plus">Bioinformatic identification of novel early stress response genes in rodent models of lung injury.g> / Am J Physiol Lung Cell Mol Physiol 2005, g class="a-plus-plus">289:g>L468-L477. g/10.1152/ajplung.00109.2005">CrossRef
    28. Probyn ME, Hooper SB, Dargaville PA, McCallion N, Harding R, Morley CJ: g class="a-plus-plus">Effects of tidal volume and positive end-expiratory pressure during resuscitation of very premature lambs.g> / Acta Paediatr 2005, g class="a-plus-plus">94:g>1764-770. g/10.1080/0803525051002961">CrossRef
    29. Deryckere F, Gannon F: g class="a-plus-plus">A one-hour minipreparation technique for extraction of DNA-binding proteins from animal tissues.g> / Biotechniques 1994, g class="a-plus-plus">16:g>405.
    30. Egan PJ, Rothel JS, Andrews AE, Seow HF, Wood PR, Nash AD: g class="a-plus-plus">Characterization of monoclonal antibodies to ovine tumor necrosis factor-alpha and development of a sensitive immunoassay.g> / Vet Immunol Immunopathol 1994, g class="a-plus-plus">41:g>259-74. g/10.1016/0165-2427(94)90101-5">CrossRef
    31. Lines A, Nardo L, Phillips ID, Possmayer F, Hooper SB: g class="a-plus-plus">Alterations in lung expansion affect surfactant protein A, B and C mRNA levels in fetal sheep.g> / Am J Physiol 1999, g class="a-plus-plus">276:g>L239-L245.
    32. Hillman NH, Moss TJM, Kallapur SG, Bachurski C, Pillow JJ, Polglase GR, / et al.: g class="a-plus-plus">Brief, large tidal volume ventilation initiates lung injury and a systemic response in fetal sheep.g> / Am J Respir Crit Care Med 2007, g class="a-plus-plus">176:g>575-81. g/10.1164/rccm.200701-051OC">CrossRef
    33. Naik AS, Kallapur SG, Bachurski CJ, Jobe AH, Michna J, Kramer BW, / et al.: g class="a-plus-plus">Effects of ventilation with different positive end-expiratory pressures on cytokine expression in the preterm lamb lung.g> / Am J Respir Crit Care Med 2001, g class="a-plus-plus">164:g>494-98.
    34. Brigstock DR: g class="a-plus-plus">The CCN family: a new stimulus package.g> / J Endocrinol 2003, g class="a-plus-plus">178:g>169-75. g/10.1677/joe.0.1780169">CrossRef
    35. Grotendorst GR, Duncan MR: g class="a-plus-plus">Individual domains of connective tissue growth factor regulate fibroblast proliferation and myofibroblast differentiation.g> / FASEB J 2005, g class="a-plus-plus">19:g>729-38. g/10.1096/fj.04-3217com">CrossRef
    36. Baguma-Nibasheka M, Kablar B: g class="a-plus-plus">Pulmonary hypoplasia in the connective tissue growth factor (Ctgf) null mouse.g> / Dev Dyn 2008, g class="a-plus-plus">237:g>485-93. g/10.1002/dvdy.21433">CrossRef
    37. Sakamoto S, Yokoyama M, Aoki M, Suzuki K, Kakehi Y, Saito Y: g class="a-plus-plus">Induction and function of CYR61 (CCN1) in prostatic stromal and epithelial cells: CYR61 is required for prostatic cell proliferation.g> / Prostate 2004, g class="a-plus-plus">61:g>305-17. g/10.1002/pros.20098">CrossRef
    38. Zhou D, Herrick DJ, Rosenbloom J, Chaqour B: g class="a-plus-plus">Cyr61 Mediates the Expression of VEGF, {alpha}v Integrin and {alpha}-Actin Genes through Cytoskeletally-Based Mechanotransduction Mechanisms in Bladder Smooth Muscle Cells.g> / J Appl Physiol 2005, g class="a-plus-plus">98:g>2344-354. g/10.1152/japplphysiol.01093.2004">CrossRef
    39. Kubota S, Takigawa M: g class="a-plus-plus">CCN family proteins and angiogenesis: from embryo to adulthood.g> / Angiogenesis 2007, g class="a-plus-plus">10:g>1-1. g/10.1007/s10456-006-9058-5">CrossRef
    40. Chen CC, Mo FE, Lau LF: g class="a-plus-plus">The angiogenic factor Cyr61 activates a genetic program for wound healing in human skin fibroblasts.g> / J Biol Chem 2001, g class="a-plus-plus">276:g>47329-7337. g/10.1074/jbc.M107666200">CrossRef
    41. Lee SL, Sadovsky Y, Swirnoff AH, Polish JA, Goda P, Gavrilina G, / et al.: g class="a-plus-plus">Luteinizing hormone deficiency and female infertility in mice lacking the transcription factor NGFI-A (Egr-1).g> / Science 1996, g class="a-plus-plus">273:g>1219-221. g/10.1126/science.273.5279.1219">CrossRef
    42. Fu M, Zhu X, Zhang J, Liang J, Lin Y, Zhao L, / et al.: g class="a-plus-plus">Egr-1 target genes in human endothelial cells identified by microarray analysis.g> / Gene 2003, g class="a-plus-plus">315:g>33-1. g/10.1016/S0378-1119(03)00730-3">CrossRef
    43. Silverman ES, Collins T: g class="a-plus-plus">Pathways of Egr-1-mediated gene transcription in vascular biology.g> / Am J Pathol 1999, g class="a-plus-plus">154:g>665-70.
    44. Reynolds PR, Cosio MG, Hoidal JR: g class="a-plus-plus">Cigarette smoke-induced Egr-1 upregulates proinflammatory cytokines in pulmonary epithelial cells.g> / Am J Respir Cell Mol Biol 2006, g class="a-plus-plus">35:g>314-19. g/10.1165/rcmb.2005-0428OC">CrossRef
    45. Khachigian LM, Collins T: g class="a-plus-plus">Inducible expression of Egr-1-dependent genes. A paradigm of transcriptional activation in vascular endothelium.g> / Circ Res 1997, g class="a-plus-plus">81:g>457-61.
    46. Landesberg LJ, Ramalingam R, Lee K, Rosengart TK, Crystal RG: g class="a-plus-plus">Upregulation of transcription factors in lung in the early phase of postpneumonectomy lung growth.g> / Am J Physiol Lung Cell Mol Physiol 2001, g class="a-plus-plus">281:g>L1138-L1149.
    47. Copland IB, Kavanagh BP, Engelberts D, McKerlie C, Belik J, Post M: g class="a-plus-plus">Early changes in lung gene expression due to high tidal volume.g> / Am J Respir Crit Care Med 2003, g class="a-plus-plus">168:g>1051-059. g/10.1164/rccm.200208-964OC">CrossRef
    48. Yan SF, Fujita T, Lu J, Okada K, Shan ZY, Mackman N, / et al.: g class="a-plus-plus">Egr-1, a master switch coordinating upregulation of divergent gene families underlying ischemic stress.g> / Nat Med 2000, g class="a-plus-plus">6:g>1355-361. g/10.1038/82168">CrossRef
    49. Zhang W, Yan SD, Zhu A, Zou YS, Williams M, Godman GC, / et al.: g class="a-plus-plus">Expression of Egr-1 in late stage emphysema.g> / Am J Pathol 2000, g class="a-plus-plus">157:g>1311-320.
  • 作者单位:Megan J Wallace (1)
    Megan E Probyn (1)
    Valerie A Zahra (1)
    Kelly Crossley (1)
    Timothy J Cole (2)
    Peter G Davis (3)
    Colin J Morley (3)
    Stuart B Hooper (1)

    1. Department of Physiology, Monash University, Melbourne, Victoria, Australia
    2. Department of Biochemistry and Molecular Biology, Monash University, Melbourne, Victoria, Australia
    3. Newborn Research, Royal Women's Hospital, Melbourne, Victoria, Australia
文摘
Background Bronchopulmonary dysplasia (BPD) is closely associated with ventilator-induced lung injury (VILI) in very preterm infants. The greatest risk of VILI may be in the immediate period after birth, when the lungs are surfactant deficient, still partially filled with liquid and not uniformly aerated. However, there have been very few studies that have examined this immediate post-birth period and identified the initial injury-related pathways that are activated. We aimed to determine if the early response genes; connective tissue growth factor (CTGF), cysteine rich-61 (CYR61) and early growth response 1 (EGR1), were rapidly induced by VILI in preterm lambs and whether ventilation with different tidal volumes caused different inflammatory cytokine and early response gene expression. Methods To identify early markers of VILI, preterm lambs (132 d gestational age; GA, term ~147 d) were resuscitated with an injurious ventilation strategy (VT 20 mL/kg for 15 min) then gently ventilated (5 mL/kg) for 15, 30, 60 or 120 min (n = 4 in each). To determine if early response genes and inflammatory cytokines were differentially regulated by different ventilation strategies, separate groups of preterm lambs (125 d GA; n = 5 in each) were ventilated from birth with a VT of 5 (VG5) or 10 mL/kg (VG10) for 135 minutes. Lung gene expression levels were compared to levels prior to ventilation in age-matched control fetuses. Results CTGF, CYR61 and EGR1 lung mRNA levels were increased ~25, 50 and 120-fold respectively (p < 0.05), within 30 minutes of injurious ventilation. VG5 and VG10 caused significant increases in CTGF, CYR61, EGR1, IL1-β, IL-6 and IL-8 mRNA levels compared to control levels. CTGF, CYR61, IL-6 and IL-8 expression levels were higher in VG10 than VG5 lambs; although only the IL-6 and CYR61 mRNA levels reached significance. Conclusion CTGF, CYR61 and EGR1 may be novel early markers of lung injury and mechanical ventilation from birth using relatively low tidal volumes may be less injurious than using higher tidal volumes.

© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号

地址:北京市海淀区学院路29号 邮编:100083

电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700