Abstract
Precision oncology entails making treatment decisions based on a tumor's molecular characteristics. For prostate cancer, identifying clinically relevant molecular subgroups is challenging, as molecular profiling is not routine outside of academic centers. Since histologic variants of other cancers correlates with specific genomic alterations, we sought to determine if ductal adenocarcinoma of the prostate (dPC) – a rare and aggressive histopathologic variant – was associated with any recurrent actionable mutations. Tumors from 10 consecutive patients with known dPC were sequenced on a targeted next-generation DNA sequencing panel. The median age at diagnosis was 59 years (range, 40–73). Four (40%) patients had metastases upon presentation. Archival tissue from formalin-fixed paraffin-embedded prostate tissue samples from nine patients and a biopsy of a metastasis from one patient with castration-resistant prostate cancer were available for analysis. Nine of 10 samples had sufficient material for tumor sequencing. Four (40%) patients' tumors had a mismatch repair (MMR) gene alteration (N = 2, MSH2; N = 1, MSH6; and N = 1, MLH1), of which 3 (75%) had evidence of hypermutation. Sections of the primary carcinomas of three additional patients with known MMR gene alterations/hypermutation were histologically evaluated; two of these tumors had dPC. MMR mutations associated with hypermutation were common in our cohort of dPC patients. Since hypermutation may predict for response to immune checkpoint blockade, the presence of dPC may be a rapid means to enrich populations for further screening. Given our small sample size, these findings require replication.
Highlights
Precision oncology entails therapeutic decisionmaking on the basis of an individual patient’s molecular tumor profile
The tumors from four (40%) patients had an alteration predicted to be pathogenic in one of the mismatch repair (MMR) genes (2 in MSH2, 1 in MSH6 and 1 in MLH1), of which 3 (75%) had evidence of hypermutation associated with microsatellite instability (MSI)
We found that alterations in MMR genes and associated hypermutation were far more prevalent in ductal prostate cancer (dPC) compared to prostate cancers not selected by histologic subtype [13, 14]
Summary
Precision oncology entails therapeutic decisionmaking on the basis of an individual patient’s molecular tumor profile. Because histological variants can correlate with genomic alterations in other malignancies (e.g. colorectal carcinoma, acute myelogenous leukemia), we hypothesized that distinct prostate cancer histologies may associate with underlying molecular aberrations – allowing for the rapid identification of patients for further screening [1,2,3,4,5]. We sought to determine if ductal prostate cancer (dPC) was associated with clinically actionable molecular features. Ductal prostatic adenocarcinomas (dPC) are an aggressive histopathologic variant of prostate www.impactjournals.com/oncotarget cancer, characterized by large glands lined by tall, pseudostratified, columnar neoplastic epithelial cells [6]. Tumors with >10% ductal component are associated with a higher stage, are more likely to present with metastatic disease, and may be less responsive to androgen deprivation [7]
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