Proteogenomic analysis of lung adenocarcinoma reveals tumor heterogeneity, survival determinants, and therapeutically relevant pathways

Anthony R. Soltis; Nicholas W. Bateman; Jianfang Liu; Trinh Mai Nguyen; Teri J. Franks; Xijun Zhang; Clifton L. Dalgard; Coralie Viollet; Stella Somiari; Chunhua Yan; Karen Zeman; William J. Skinner; Jerry Lee; Harvey B. Pollard; Clesson Turner; Emanuel F. Petricoin; Daoud Meerzaman; Thomas P. Conrads; Hai Hu; Rebecca Blackwell; Gauthaman Sukumar; Dagmar Bačíková; Camille Alba; Elisa McGrath; Sraavya Polisetti; Meila Tuck; Alden Chiu; Gabe Peterson; Caroline Larson; Leonid Kvecher; Brenda Deyarmin; J. Kane; Katie Miller; Kelly A. Conrads; Brian L. Hood; Sasha C. Makohon‐Moore; Tamara Abulez; Elisa Baldelli; Mariaelena Pierobon; Qing-rong Chen; Henry Rodriguez; Sean E. Hanlon; Anthony R. Soltis; Nicholas W. Bateman; Jianfang Liu; Trinh Mai Nguyen; Teri J. Franks; Xijun Zhang; Clifton L. Dalgard; Coralie Viollet; Stella Somiari; Chunhua Yan; Karen Zeman; William J. Skinner; Jerry Lee; Harvey B. Pollard; Clesson Turner; Emanuel F. Petricoin; Daoud Meerzaman; Thomas P. Conrads; Hai Hu; Craig D. Shriver; Christopher A. Moskaluk; Robert Browning; Matthew D. Wilkerson; Craig D. Shriver; Christopher A. Moskaluk; Robert Browning; Matthew D. Wilkerson

doi:10.1016/j.xcrm.2022.100819

Proteogenomic analysis of lung adenocarcinoma reveals tumor heterogeneity, survival determinants, and therapeutically relevant pathways

Anthony R. Soltis(Henry M. Jackson Foundation), Nicholas W. Bateman(Inova Health System), Jianfang Liu(Windber Research Institute), Trinh Mai Nguyen(National Cancer Institute), Teri J. Franks, Xijun Zhang(Henry M. Jackson Foundation), Clifton L. Dalgard(Uniformed Services University of the Health Sciences), Coralie Viollet(Henry M. Jackson Foundation), Stella Somiari(Windber Research Institute), Chunhua Yan(National Cancer Institute), Karen Zeman(Uniformed Services University of the Health Sciences), William J. Skinner(Uniformed Services University of the Health Sciences), Jerry Lee(University of Southern California), Harvey B. Pollard(Uniformed Services University of the Health Sciences), Clesson Turner(Uniformed Services University of the Health Sciences), Emanuel F. Petricoin(George Mason University), Daoud Meerzaman(National Cancer Institute), Thomas P. Conrads(Inova Health System), Hai Hu(Windber Research Institute), Rebecca Blackwell, Gauthaman Sukumar, Dagmar Bačíková, Camille Alba, Elisa McGrath, Sraavya Polisetti, Meila Tuck, Alden Chiu, Gabe Peterson, Caroline Larson, Leonid Kvecher, Brenda Deyarmin, J. Kane, Katie Miller, Kelly A. Conrads(Inova Health System), Brian L. Hood, Sasha C. Makohon‐Moore, Tamara Abulez, Elisa Baldelli, Mariaelena Pierobon, Qing-rong Chen, Henry Rodriguez, Sean E. Hanlon, Anthony R. Soltis(Henry M. Jackson Foundation), Nicholas W. Bateman(Inova Health System), Jianfang Liu(Windber Research Institute), Trinh Mai Nguyen(National Cancer Institute), Teri J. Franks, Xijun Zhang(Henry M. Jackson Foundation), Clifton L. Dalgard(Uniformed Services University of the Health Sciences), Coralie Viollet(Henry M. Jackson Foundation), Stella Somiari(Windber Research Institute), Chunhua Yan(National Cancer Institute), Karen Zeman(Uniformed Services University of the Health Sciences), William J. Skinner(Uniformed Services University of the Health Sciences), Jerry Lee(University of Southern California), Harvey B. Pollard(Uniformed Services University of the Health Sciences), Clesson Turner(Uniformed Services University of the Health Sciences), Emanuel F. Petricoin(George Mason University), Daoud Meerzaman(National Cancer Institute), Thomas P. Conrads(Inova Health System), Hai Hu(Windber Research Institute), Craig D. Shriver(Uniformed Services University of the Health Sciences), Christopher A. Moskaluk(University of Virginia), Robert Browning(Uniformed Services University of the Health Sciences), Matthew D. Wilkerson(Uniformed Services University of the Health Sciences), Craig D. Shriver(Uniformed Services University of the Health Sciences), Christopher A. Moskaluk(University of Virginia), Robert Browning(Uniformed Services University of the Health Sciences), Matthew D. Wilkerson(Uniformed Services University of the Health Sciences)

Cell Reports Medicine

November 1, 2022

10.1016/j.xcrm.2022.100819

Cited by 74Open Access

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Abstract

We present a deep proteogenomic profiling study of 87 lung adenocarcinoma (LUAD) tumors from the United States, integrating whole-genome sequencing, transcriptome sequencing, proteomics and phosphoproteomics by mass spectrometry, and reverse-phase protein arrays. We identify three subtypes from somatic genome signature analysis, including a transition-high subtype enriched with never smokers, a transversion-high subtype enriched with current smokers, and a structurally altered subtype enriched with former smokers, TP53 alterations, and genome-wide structural alterations. We show that within-tumor correlations of RNA and protein expression associate with tumor purity and immune cell profiles. We detect and independently validate expression signatures of RNA and protein that predict patient survival. Additionally, among co-measured genes, we found that protein expression is more often associated with patient survival than RNA. Finally, integrative analysis characterizes three expression subtypes with divergent mutations, proteomic regulatory networks, and therapeutic vulnerabilities. This proteogenomic characterization provides a foundation for molecularly informed medicine in LUAD.

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