Bioinformatic identification of novel early stress response genes in rodent models of lung injury

doi:10.1152/ajplung.00109.2005

Bioinformatic identification of novel early stress response genes in rodent models of lung injury

Shwu-Fan Ma,^* Dmitry N. Grigoryev,^* Angela D. Taylor, Stephanie Nonas, Saad Sammani, Shui Qing Ye, and Joe G. N. Garcia

Center for Translational Respiratory Medicine, Gene Expression Profiling Core, Division of Pulmonary and Critical Care Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland

Submitted 8 March 2005 ; accepted in final form 16 May 2005

Acute lung injury is a complex illness with a high mortalityrate (>30%) and often requires the use of mechanical ventilatorysupport for respiratory failure. Mechanical ventilation canlead to clinical deterioration due to augmented lung injuryin certain patients, suggesting the potential existence of geneticsusceptibility to mechanical stretch (6, 48), the nature ofwhich remains unclear. To identify genes affected by ventilator-inducedlung injury (VILI), we utilized a bioinformatic-intense candidategene approach and examined gene expression profiles from rodentVILI models (mouse and rat) using the oligonucleotide microarrayplatform. To increase statistical power of gene expression analysis,2,769 mouse/rat orthologous genes identified on RG_U34A andMG_U74Av2 arrays were simultaneously analyzed by significanceanalysis of microarrays (SAM). This combined ortholog/SAM approachidentified 41 up- and 7 downregulated VILI-related candidategenes, results validated by comparable expression levels obtainedby either real-time or relative RT-PCR for 15 randomly selectedgenes. K-mean clustering of 48 VILI-related genes clusteredseveral well-known VILI-associated genes (IL-6, plasminogenactivator inhibitor type 1, CCL-2, cyclooxygenase-2) with anumber of stress-related genes (Myc, Cyr61, Socs3). The onlyunannotated member of this cluster (n = 14) was RIKEN_1300002F13EST, an ortholog of the stress-related Gene33/Mig-6 gene. Thefurther evaluation of this candidate strongly suggested itsinvolvement in development of VILI. We speculate that the ortholog-SAMapproach is a useful, time- and resource-efficient tool foridentification of candidate genes in a variety of complex diseasemodels such as VILI.

rodent mechanical ventilation model; bioinformatics; microarrays

Address for reprint requests and other correspondence: J. G. N. Garcia, Dept. of Medicine, W604, Univ. of Chicago Pritzker School of Medicine, 5841 S. Maryland Ave., Chicago, IL 60637 (e-mail: jgarcia{at}medicine.bsd.uchicago.edu)

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