Abstract

This application is in response to Notice Number (NOT-OD-09-058) and Notice Title: NIH Announces the Availability of Recovery Act Funds for Competitive Revision Applications. We propose a competitive revision to the Clinical Proteomic Technology Assessment for Cancer (CPTAC) program at Vanderbilt, which will support expanded studies of quantitative analysis methods for phosphotyrosine proteomes. Signaling pathways based on tyrosine phosphorylation are critical to the development of cancer and drugs that inhibit tyrosine kinases are effective therapeutic agents. Despite their widespread use, utility of tyrosine kinase inhibitors is limited by the emergence of resistance, apparently involving compensating signaling mechanisms. Proteomic approaches for global assessment of phosphotyrosine signaling are needed to investigate these mechanisms underlying resistance and response. Shotgun proteomics using liquid chromatography-tandem mass spectrometry combined with immunoaffinity enrichment of phosphotyrosine peptides enables global analysis, but lacks robust quantitative performance. Moreover, isotope labeling approaches (SILAC, iTRAQ) are not applicable to human tissue specimens and provide only relative quantitation in paired sample analyses. We propose to develop and evaluate a new label-free method for quantitative analysis of phosphotyrosine proteins. This approach uses tyrosine phosphorylated bacterial proteins to normalize mass spectral signals for endogenous phosphopeptide quantification in immunoaffinity shotgun analyses and for assessment of variability due to digestion, immunoprecipitation and other sample preparation steps. We will apply liquid chromatography multiple reaction monitoring mass spectrometry (LC-MRM-MS) analysis methods for sensitive, targeted quantification. We will validate this approach through analysis of HER2-regulated phosphotyrosine signaling in a human breast cancer cell model and in tumor tissue from a HER2-regulated mouse xenograft model. This new work will leverage existing collaborations and resources within the Vanderbilt CPTAC to facilitate implementation with new standards and data analysis tools.

Public Health Relevance

Reliable methods to measure disease-related protein changes in cancer are needed to advance the field of cancer diagnostics. The proposed work will develop and test methods to reliably measure protein phosphorylation changes in response to cancer development and anticancer drug therapy.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Resource-Related Research Projects--Cooperative Agreements (U24)
Project #
3U24CA126479-04S1
Application #
7815871
Study Section
Special Emphasis Panel (ZCA1-SRLB-4 (O9))
Program Officer
Rodriguez, Henry
Project Start
2009-09-30
Project End
2011-08-31
Budget Start
2009-09-30
Budget End
2011-08-31
Support Year
4
Fiscal Year
2009
Total Cost
$402,331
Indirect Cost

  Institution

Name
Vanderbilt University Medical Center
Department
Biochemistry
Type
Schools of Medicine
DUNS #
004413456
City
Nashville
State
TN
Country
United States
Zip Code
37212

  Publications

Guo, H; Gao, M; Lu, Y et al. (2014) Coordinate phosphorylation of multiple residues on single AKT1 and AKT2 molecules. Oncogene 33:3463-72
Halvey, Patrick J; Wang, Xiaojing; Wang, Jing et al. (2014) Proteogenomic analysis reveals unanticipated adaptations of colorectal tumor cells to deficiencies in DNA mismatch repair. Cancer Res 74:387-97
Wang, Xia; Chambers, Matthew C; Vega-Montoto, Lorenzo J et al. (2014) QC metrics from CPTAC raw LC-MS/MS data interpreted through multivariate statistics. Anal Chem 86:2497-509
Lin, De; Alborn, William E; Slebos, Robbert J C et al. (2013) Comparison of protein immunoprecipitation-multiple reaction monitoring with ELISA for assay of biomarker candidates in plasma. J Proteome Res 12:5996-6003
Liu, Qi; Ullery, Jody; Zhu, Jing et al. (2013) RNA-seq data analysis at the gene and CDS levels provides a comprehensive view of transcriptome responses induced by 4-hydroxynonenal. Mol Biosyst 9:3036-46
Liebler, Daniel C; Zimmerman, Lisa J (2013) Targeted quantitation of proteins by mass spectrometry. Biochemistry 52:3797-806
Liu, Qi; Halvey, Patrick J; Shyr, Yu et al. (2013) Integrative omics analysis reveals the importance and scope of translational repression in microRNA-mediated regulation. Mol Cell Proteomics 12:1900-11
Zhu, Jing; Wang, Jing; Shi, Zhiao et al. (2013) Deciphering genomic alterations in colorectal cancer through transcriptional subtype-based network analysis. PLoS One 8:e79282
Slebos, Robbert J C; Jehmlich, Nico; Brown, Brandee et al. (2013) Proteomic analysis of oropharyngeal carcinomas reveals novel HPV-associated biological pathways. Int J Cancer 132:568-79
Halvey, Patrick J; Ferrone, Cristina R; Liebler, Daniel C (2012) GeLC-MRM quantitation of mutant KRAS oncoprotein in complex biological samples. J Proteome Res 11:3908-13

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