1. Signal pathway profiling of prostate cancer using reverse phase protein arrays
- Author
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Michael R. Emmert-Buck, John Phillips, Robert L. Grubb, John W. Gillespie, Alfredo Valasco, Julia D. Wulkuhle, Emanuel F. Petricoin, Rodrigo F. Chuaqui, Lance A. Liotta, Cloud P. Paweletz, Valerie S. Calvert, and W. Marston Linehan
- Subjects
Male ,Cell signaling ,Prostatic Stroma ,Biology ,Proteomics ,Biochemistry ,Prostate cancer ,Antigens, Neoplasm ,Biomarkers, Tumor ,medicine ,Humans ,Phosphorylation ,Molecular Biology ,Laser capture microdissection ,Prostatic Intraepithelial Neoplasia ,Prostate ,Prostatic Neoplasms ,Reverse phase protein lysate microarray ,medicine.disease ,Cell biology ,Cell Transformation, Neoplastic ,Immunology ,Protein microarray ,Mitogen-Activated Protein Kinases ,Signal transduction ,Signal Transduction - Abstract
Reverse phase protein arrays represent a new proteomics microarray technology with which to study the fluctuating state of the proteome in minute quantities of cells. The activation status of cell signaling pathways controls cellular fate and deregulation of these pathways underpins carcinogenesis. Changes in pathway activation that occur between early stage prostatic epithelial lesions, prostatic stroma and the extracellular matrix can be analyzed by obtaining pure populations of cell types by laser capture microdissection (LCM) and analyzing the relative states of several key phosphorylation points within the cellular circuitry. We have applied reverse phase protein array technology to analyze the status of key points in cell signaling involved in pro-survival, mitogenic, apoptotic and growth regulation pathways in the progression from normal prostate epithelium to invasive prostate cancer. Using multiplexed reverse phase protein arrays coupled with LCM, the states of signaling changes during disease progression from prostate cancer study sets were analyzed. Focused analysis of phospho-specific endpoints revealed changes in cellular signaling events through disease progression and between patients. We have used a new protein array technology to study specific molecular pathways believed to be important in cell survival and progression from normal epithelium to invasive carcinoma directly from human tissue specimens. With the advent of molecular targeted therapeutics, the identification, characterization and monitoring of the signaling events within actual human biopsies will be critical for patient-tailored therapy.
- Published
- 2003
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