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   Integrative genomic analyses identify BRF2 as a novel lineage-specific oncogene in lung squamous cell carcinoma  
   
نویسنده lockwood w.w. ,chari r. ,coe b.p. ,thu k.l. ,garnis c. ,malloff c.a. ,campbell j. ,williams a.c. ,hwang d. ,zhu c.-q. ,buys t.p.h. ,yee j. ,english j.c. ,macaulay c. ,tsao m.-s. ,gazdar a.f. ,minna j.d. ,lam s. ,lam w.l.
منبع plos medicine - 2010 - دوره : 7 - شماره : 7
چکیده    Background: traditionally,non-small cell lung cancer is treated as a single disease entity in terms of systemic therapy. emerging evidence suggests the major subtypes-adenocarcinoma (ac) and squamous cell carcinoma (sqcc)-respond differently to therapy. identification of the molecular differences between these tumor types will have a significant impact in designing novel therapies that can improve the treatment outcome,methods and findings: we used an integrative genomics approach,combing high-resolution comparative genomic hybridization and gene expression microarray profiles,to compare ac and sqcc tumors in order to uncover alterations at the dna level,with corresponding gene transcription changes,which are selected for during development of lung cancersubtypes. through the analysis of multiple independent cohorts of clinical tumor samples (>330),normal lung tissues and bronchial epithelial cells obtained by bronchial brushing in smokers without lung cancer,we identified the overexpression of brf2,a gene on chromosome 8p12,which is specific for development of sqcc of lung. genetic activation of brf2,which encodes a rna polymerase iii (pol iii) transcription initiation factor,was found to be associated with increased expression of small nuclear rnas (snrnas) that are involved in processes essential for cell growth,such as rna splicing. ectopic expression of brf2 in human bronchial epithelial cells induced a transformed phenotype and demonstrates downstream oncogenic effects,whereas rna interference (rnai)-mediated knockdown suppressed growth and colony formation of sqcc cells overexpressing brf2,but not ac cells. frequent activation of brf2 in>35% preinvasive bronchial carcinoma in situ,as well as in dysplastic lesions,provides evidence that brf2 expression is an early event in cancer development of this cell lineage,conclusions: this is the first study,to our knowledge,to show that the focal amplification of a gene in chromosome 8p12,plays a key role in squamous cell lineage specificity of the disease. our data suggest that genetic activation of brf2 represents a unique mechanism of sqcc lung tumorigenesis through the increase of pol iii-mediated transcription. it can serve as a marker for lung sqcc and may provide a novel target for therapy. © 2010 lockwood et al.
آدرس department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of cancer imaging,british columbia cancer research centre,vancouver,bc, Canada, department of pathology,division of applied molecular oncology,university health network - princess margaret hospital and ontario cancer institute,university of toronto,toronto,on, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada, department of surgery,vancouver general hospital,vancouver,bc, Canada, department of pathology,vancouver general hospital,vancouver,bc, Canada, department of cancer imaging,british columbia cancer research centre,vancouver,bc, Canada, department of pathology,division of applied molecular oncology,university health network - princess margaret hospital and ontario cancer institute,university of toronto,toronto,on, Canada, hamon center for therapeutic oncology research,university of texas southwestern medical center,dallas,tx, United States, hamon center for therapeutic oncology research,university of texas southwestern medical center,dallas,tx, United States, department of cancer imaging,british columbia cancer research centre,vancouver,bc, Canada, department of cancer genetics and developmental biology,british columbia cancer research centre,vancouver,bc, Canada
 
     
   
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