Project 2 of the Michigan Prostate SPORE seeks to improve the early detection of unfavorable risk prostate cancer (PCa) by employing a novel urine-based next-generation sequencing (NGS) assay. Recent studies have demonstrated that men with certain germline genetic alterations (e.g., BRCA 1/2 and Lynch syndrome) may be at increased risk of potentially aggressive PCa. Men at increased genetic risk represent a newly recognized group in whom early detection is particularly compelling. Generally speaking, a central problem inherent to PCa screening is the profound overdiagnosis of Gleason 6 (low risk) disease. To counterbalance the overtreatment of Gleason 6 PCa, a number of active surveillance (AS) strategies have been introduced. Transition to definitive treatment (e.g., surgery or radiation) can be triggered by evidence of risk reclassification often due to grade progression. Improved early detection of grade progression in men with previously diagnosed Gleason 6 PCa on AS represents a major opportunity to improve and optimize resource utilization (prostate biopsy and MRI) as well as the diagnosis of clinically significant PCa. How to reliably identify potentially aggressive PCa so treatment can be appropriately recommended continues to represent a critical knowledge gap. Building on prior work from a successful SPORE project involving the Mi Prostate Score (MiPS) test (using transcription-mediated amplification quantification of urine KLK3, PCA3, and TMPRSS2:ERG), we have developed a novel urine-based NGS assay (MiPS-NGS) to detect unfavorable risk (?Gleason 7) PCa. MiPS-NGS is a targeted RNA-seq assay comprised of 83 prostate-, PCa-, and aggressive PCa-specific transcripts (e.g., lncRNAs, ETS genes fusions, HOXB13). We hypothesize that MiPS-NGS can improve the early detection of unfavorable risk PCa and will test this through the following Specific Aims:
Aim 1 : To assess the utility of MiPS-NGS as a PCa early detection assay in men at high genetic risk.
Aim 2 : To determine whether MiPS-NGS can predict grade progression in men on AS. Sub-Aim 2.1: To test MiPS-NGS alone for the early detection of grade progression in two prospective AS cohorts. Sub-Aim 2.2: To develop a multi-dimensional clinical tool based on MiPS-NGS to optimize early detection of grade progression in men on AS. Upon successful completion of this project, we will have established a role for our innovative urine NGS assay in the early detection of unfavorable risk PCa in two important contexts: 1) men at high genetic risk and 2) AS. Our interdisciplinary team, comprised of experts in clinical management, genomics, bioinformatics, biostatistics, and cancer genetics, coupled with our unique institutional resources (Michigan Urological Surgery Improvement Collaborative (MUSIC), University of Michigan Prostate Cancer Risk Clinic (PCRC), and the Karmanos Cancer Institute) and collaborations (University of Washington/Fred Hutchinson Cancer Research Center and the National Cancer Institute), is uniquely poised to execute our stated research plan.

Public Health Relevance

Strategies to facilitate the early detection of aggressive prostate cancer represent a critical unmet clinical need. In this project, we will rigorously test a novel urine-based targeted next generation sequencing assay, which we have developed, to enable the early detection of aggressive prostate cancer. The successful completion of our proposed work will have profound implications on the manner in which men suspected of having aggressive prostate cancer are clinically managed.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Specialized Center (P50)
Project #
2P50CA186786-06
Application #
9791700
Study Section
Special Emphasis Panel (ZCA1)
Project Start
Project End
Budget Start
2019-09-01
Budget End
2020-08-31
Support Year
6
Fiscal Year
2019
Total Cost
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Type
DUNS #
073133571
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Zhang, Yajia; Pitchiaya, Sethuramasundaram; Cie?lik, Marcin et al. (2018) Analysis of the androgen receptor-regulated lncRNA landscape identifies a role for ARLNC1 in prostate cancer progression. Nat Genet 50:814-824
Hussain, Maha; Daignault-Newton, Stephanie; Twardowski, Przemyslaw W et al. (2018) Targeting Androgen Receptor and DNA Repair in Metastatic Castration-Resistant Prostate Cancer: Results From NCI 9012. J Clin Oncol 36:991-999
Salami, Simpa S; Hovelson, Daniel H; Kaplan, Jeremy B et al. (2018) Transcriptomic heterogeneity in multifocal prostate cancer. JCI Insight 3:
Zhao, Shanshan; Leonardson, Amy; Geybels, Milan S et al. (2018) A five-CpG DNA methylation score to predict metastatic-lethal outcomes in men treated with radical prostatectomy for localized prostate cancer. Prostate :
Niknafs, Yashar S; Pandian, Balaji; Gajjar, Tilak et al. (2018) MiPanda: A Resource for Analyzing and Visualizing Next-Generation Sequencing Transcriptomics Data. Neoplasia 20:1144-1149
Xiao, Lanbo; Tien, Jean C; Vo, Josh et al. (2018) Epigenetic Reprogramming with Antisense Oligonucleotides Enhances the Effectiveness of Androgen Receptor Inhibition in Castration-Resistant Prostate Cancer. Cancer Res 78:5731-5740
Piert, Morand; Shankar, Prasad R; Montgomery, Jeffrey et al. (2018) Accuracy of tumor segmentation from multi-parametric prostate MRI and 18F-choline PET/CT for focal prostate cancer therapy applications. EJNMMI Res 8:23
Wu, Yi-Mi; Cie?lik, Marcin; Lonigro, Robert J et al. (2018) Inactivation of CDK12 Delineates a Distinct Immunogenic Class of Advanced Prostate Cancer. Cell 173:1770-1782.e14
Robinson, Dan R; Wu, Yi-Mi; Lonigro, Robert J et al. (2017) Integrative clinical genomics of metastatic cancer. Nature 548:297-303
Jin, Feng; Thaiparambil, Jose; Donepudi, Sri Ramya et al. (2017) Tobacco-Specific Carcinogens Induce Hypermethylation, DNA Adducts, and DNA Damage in Bladder Cancer. Cancer Prev Res (Phila) 10:588-597

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