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Bleomycin Induces Molecular Changes Directly Relevant to Idiopathic Pulmonary Fibrosis: A Model for “Active” Disease

Author

Listed:
  • Ruoqi Peng
  • Sriram Sridhar
  • Gaurav Tyagi
  • Jonathan E Phillips
  • Rosario Garrido
  • Paul Harris
  • Lisa Burns
  • Lorena Renteria
  • John Woods
  • Leena Chen
  • John Allard
  • Palanikumar Ravindran
  • Hans Bitter
  • Zhenmin Liang
  • Cory M Hogaboam
  • Chris Kitson
  • David C Budd
  • Jay S Fine
  • Carla MT Bauer
  • Christopher S Stevenson

Abstract

The preclinical model of bleomycin-induced lung fibrosis, used to investigate mechanisms related to idiopathic pulmonary fibrosis (IPF), has incorrectly predicted efficacy for several candidate compounds suggesting that it may be of limited value. As an attempt to improve the predictive nature of this model, integrative bioinformatic approaches were used to compare molecular alterations in the lungs of bleomycin-treated mice and patients with IPF. Using gene set enrichment analysis we show for the first time that genes differentially expressed during the fibrotic phase of the single challenge bleomycin model were significantly enriched in the expression profiles of IPF patients. The genes that contributed most to the enrichment were largely involved in mitosis, growth factor, and matrix signaling. Interestingly, these same mitotic processes were increased in the expression profiles of fibroblasts isolated from rapidly progressing, but not slowly progressing, IPF patients relative to control subjects. The data also indicated that TGFβ was not the sole mediator responsible for the changes observed in this model since the ALK-5 inhibitor SB525334 effectively attenuated some but not all of the fibrosis associated with this model. Although some would suggest that repetitive bleomycin injuries may more effectively model IPF-like changes, our data do not support this conclusion. Together, these data highlight that a single bleomycin instillation effectively replicates several of the specific pathogenic molecular changes associated with IPF, and may be best used as a model for patients with active disease.

Suggested Citation

  • Ruoqi Peng & Sriram Sridhar & Gaurav Tyagi & Jonathan E Phillips & Rosario Garrido & Paul Harris & Lisa Burns & Lorena Renteria & John Woods & Leena Chen & John Allard & Palanikumar Ravindran & Hans B, 2013. "Bleomycin Induces Molecular Changes Directly Relevant to Idiopathic Pulmonary Fibrosis: A Model for “Active” Disease," PLOS ONE, Public Library of Science, vol. 8(4), pages 1-15, April.
    • Handle: RePEc:plo:pone00:0059348
    DOI: 10.1371/journal.pone.0059348
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    1. Andrea H. Bild & Guang Yao & Jeffrey T. Chang & Quanli Wang & Anil Potti & Dawn Chasse & Mary-Beth Joshi & David Harpole & Johnathan M. Lancaster & Andrew Berchuck & John A. Olson & Jeffrey R. Marks &, 2006. "Oncogenic pathway signatures in human cancers as a guide to targeted therapies," Nature, Nature, vol. 439(7074), pages 353-357, January.
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