Recent studies suggest that in the U.S. prostate cancer is over-detected and over-treated resulting in significant morbidity and financial costs. These problems are the product of poor sensitivity and specificity serum Prostate Specific Antigen (PSA) as a screening tool, leading to unnecessary biopsies that find small and predominantly indolent prostate tumors. While many prostate cancers should be managed with active surveillance, uncertainties surrounding available clinical tools of aggressiveness (such as PSA, Gleason score and clinical stage) will often drive patients and physicians to treatment. Attempts to improve prognostication using candidate biomarkers, mostly discovered from genomic analyses of large pieces of cancers, have had few successes, and available molecular tools provide only modest prediction, at best. An alternative to the genomic driver focus is that a combination of molecular events, under the influence of the tumor microenvironment, drive tumor?s molecular evolution and progression. Consequently, analysis of tumor characteristics detectable in pathomic data, such as heterogeneity of expression subtypes, amount of stroma, extent of microenvironmental heterogeneity, extent of immune infiltration, or extent of hypoxia, may ultimately lead to better patient stratification. Our proposal fundamentally centers around the most critical clinical question in early prostate cancer that is the basis for clinical decision making: Can we identify proteomic, imaging, and/or microenvironment features that distinguish those aggressive cancers that will progress to cause harm from benign cancers that can be safely monitored by watchful waiting? To examine the links between the heterogeneity of early, screen-detected prostate cancers and likelihood of progression, we will interrogate a retrospective set of 225 prostatectomy patients.
In Aim 1, we will use GE?s hyperplexed immune-pathology platform (Cell DIVE) to profile over 50 proteins at the cellular and subcellular level along with matrix components that define the microenvironments with the cells present in this matrix.
In Aim 2, we will focus on single-cell level data and systematically extract the prevalence of the diverse cell subtypes found within these tumors. Cells will be typed along traditional axes (e.g. epithelial, CD4+ T-cells). In addition, we will use molecular and structural characteristics to define novel subtypes. Features associated with cell types (e.g. existence, prevalence, diversity) will be used alone and in combination with Gleason grading to distinguish patients with aggressive tumors that are likely to progress.
Aim 3 will focus on neighborhood and regional analyses, particularly on developing approaches to extract tumor microenvironmental characteristics that have demonstrated linkages to progression (hypoxia, stromal reactivity, immune cell patterning). Using a diverse set of these features, alongside deep learning techniques on primary images, we will develop classifiers distinguishing aggressive and benign tumors. Finally, in Aim 4 we will validate classifiers in large cohorts.

Public Health Relevance

Our proposal fundamentally centers around the most critical clinical question in early prostate cancer that is the basis for clinical decision making; namely, can we identify proteomic, imaging, and/or microenvironment features that distinguish those aggressive cancers that will progress to cause harm from benign cancers that can be safely monitored by watchful waiting?

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
1R01CA249899-01
Application #
9976347
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Mazurchuk, Richard V
Project Start
2020-04-16
Project End
2025-03-31
Budget Start
2020-04-16
Budget End
2021-03-31
Support Year
1
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Stanford University
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
009214214
City
Stanford
State
CA
Country
United States
Zip Code
94305