Longitudinal Profiling of Tumor RNA Expression Signatures Reveal Key Biological Features Associated with Response to Neoadjuvant Stereotactic Body Radiation Therapy in High-Risk Prostate Cancer

Abstract

Stereotactic body radiation therapy (SBRT) is a safe and effective treatment for localized prostate cancer (PCa). PREPARE-SBRT is a clinical trial testing the safety of neoadjuvant MRI-guided SBRT for men with high-risk localized PCa. We leveraged paired samples from pre-treatment biopsy and irradiated prostatectomy (RP) specimens to evaluate transcriptomic changes in irradiated tumors at acute time points following neoadjuvant SBRT. Tumor RNA expression profiles were generated using Decipher GRID by Veracyte on 12 subjects with paired pre- and post-SBRT tissues (n = 24). Descriptive statistics using gene expression profiles describing key biological features [DNA damage & repair (DDR), tumor proliferation, suppressed immune, activated immune, tumor microenvironment (TME)] and an exploratory analysis of RT sensitivity score with binary classification as sensitive or resistant were reported. A control cohort of transcriptomic profiles of 803 matched untreated biopsy and matching RP samples from the same subjects were used to control for signature differences attributable to sample type. Key tumor biology signatures most frequently observed were DDR (15/24), TME (11/24) and tumor proliferation (11/24). Signatures associated with tumor proliferation were disproportionately represented in pre-treatment samples (10/11) whereas TME-associated signatures were enriched predominantly in irradiated RP samples (8/11). Collectively, immune-related immune signatures skewed towards immune activation. All 3 samples annotated with suppressed immune signatures were from pre-treatment specimens whereas 75% (6/8) of samples annotated with activated immune status were from irradiated specimens. Additionally, conversion from suppressed to activated immune status was observed in 2 of 3 subjects (66%). In total, 42% of specimens (10/24) were designated as radio-resistant by RT sensitivity score. Among 8 baseline specimens annotated with RT resistant status, 75% of subjects (6/8) converted to RT sensitive status after neoadjuvant SBRT. Interestingly, in the two subjects with persistent radio-resistant status in pre- and post-samples there was associated with upregulation of TGF-β or PI3K-AKT pathway activation signatures. Pre- and post-SBRT transcriptomic signatures were heterogeneous and dynamic in a cohort of 12 patients with high-risk localized PCa highlighting the importance of studying longitudinal changes in individual patients. These data highlight an opportunity to leverage tumor RNA expression profiles to personalize patient and treatment selection and augment radiation response assessment. gov ID (NCT03663218).