Treatment Outcomes in Patients With Metastatic Renal Cell Carcinoma With Sarcomatoid and/or Rhabdoid Dedifferentiation After Progression on Immune Checkpoint Therapy

BACKGROUND: Metastatic RCC with sarcomatoid and/or rhabdoid (S/R) dedifferentiation is an aggressive disease associated with improved response to immune checkpoint therapy (ICT). The outcomes of patients treated with VEGFR-targeted therapies (TT) following ICT progression have not been investigated. PATIENTS AND METHODS: Retrospective review of 57 patients with sarcomatoid (S), rhabdoid (R), or sarcomatoid plus rhabdoid (S + R) dedifferentiation who received any TT after progression on ICT at an academic cancer center. Clinical endpoints of interest included time on TT, overall survival (OS) from initiation of TT, and objective response rate (ORR) by RECIST version 1.1. Multivariable models adjusted for epithelial histology, IMDC risk, prior VEGFR TT, and inclusion of cabozantinib in the post-ICT TT regimen. RESULTS: 29/57 patients had S dedifferentiation and 19 had R dedifferentiation. The most frequently used TT was cabozantinib (43.9%) followed by selective VEGFR TT (22.8%). The median time on TT was 6.4 months for all, 6.1 months for those with S dedifferentiation, 15.6 months for R dedifferentiation, and 6.1 months for S + R dedifferentiation. Median OS from initiation of TT was 24.9 months for the entire cohort, and the ORR was 20.0%. Patients with R dedifferentiation had significantly longer time on TT than those with S dedifferentiation (HR 0.44, 95% CI, 0.21-0.94). IMDC risk was associated with OS. CONCLUSIONS: A subset of patients with S/R dedifferentiation derive clinical benefit from TT after they have progressive disease on ICT. Patients with R dedifferentiation appeared to derive more benefit from TT than those with S dedifferentiation

The Maverick trial: A phase 2 study of abivertinib in patients (pts) with metastatic castration resistant prostate cancer (mCRPC)

TPS5106 Background: Abivertinib is a potent, small molecule third-generation tyrosine kinase inhibitor (TKI) of epidermal growth factor receptor (EGFR), Bruton tyrosine kinase (BTK) receptor, and bone marrow tyrosine kinase gene on chromosome X (BMX). Abivertinib irreversibly binds to the BTK receptor, preventing the phosphorylation of the receptor, and also BMX. The adrenal-permissive HSD3B1(1245C) allele, which is present in upwards of 50% of men with prostate cancer, encodes a 3βHSD1 enzyme missense that up-regulates the rate-limiting step of androgen biosynthesis from extragonadal precursor steroids and promotes poor clinical outcomes. 3βHSD1 must be phosphorylated by BMX for androgen biosynthesis. Preclinical studies suggest BMX inhibition blocks 3βHSD1, androgen biosynthesis and CRPC in xenograft models. These provide the rationale for use of the combination of abivertinib and abiraterone to block residual androgen synthesis that escapes abiraterone inhibition. Methods: The Maverick Trial is a multicenter, open-label phase 2 study within the US Dept of Defense Prostate Cancer Clinical Trials Consortium (DOD PCCTC) of abivertinib with abiraterone in pts with mCRPC harboring the adrenal-permissive HSD3B1(1245C) allele (germline heterozygous or homozygous). HSD3B1 status will be confirmed centrally prior to enrollment via CLIA testing at the Cleveland Clinic. The study includes two cohorts: abiraterone-naïve and abiraterone-progressing. There will be cap of 50% of accrual in each cohort for pts heterozygous for the HSD3B1(1245C) allele. An interim futility analysis is embedded in each cohort, and toxicity rates will be continuously monitored for early stoppage according to predefined rules. Pts receive continuous treatment with abivertinib 200 mg BID with abiraterone 1000 mg QD + prednisone 5 mg BID until radiographic progression, unacceptable toxicity, intercurrent illness, or other reason, such as subject withdrawal. The primary endpoint is 6-month rPFS defined as percent of subjects alive and without progression by RECIST version 1.1 for measurable disease and PCWG3 criteria for bone metastases. Secondary and exploratory endpoints include objective response rate, duration of response, PSA progression, pharmacokinetics, pharmacodynamic tissue changes, and mechanisms of response and resistance to therapy via sequential tissue and blood sampling. The study is currently open at 1 site and will activate at 9 additional sites. It is sponsored by Sorrento Therapeutics, Inc, and managed by the Prostate Cancer Clinical Trials Consortium. Trial Registration: NCT05361915 Funding Source: Sorrento Therapeutics, Inc, the trial’s sponsor who is funding the trial. Clinical trial information: NCT05361915

Genotype-to-Phenotype Associations in the Aggressive Variant Prostate Cancer Molecular Profile (AVPC-m) Components

The aggressive variant prostate cancer molecular profile (AVPC-m), composed of combined defects in TP53, RB1 and PTEN, characterizes a subset of prostate cancers linked to androgen indifference and platinum sensitivity. To contribute to the optimization of the AVPC-m assessment for inclusion in prospective clinical trials, we investigated the status of the AVPC-m components in 28 patient tumor-derived xenografts (PDXs) developed at MDACC. We subjected single formalin-fixed, paraffin-embedded (FFPE) blocks from each PDX to immunohistochemistry (IHC), targeted next-generation genomic sequencing (NGS) and Clariom-S Affymetrix human microarray expression profiling. Standard validated IHC assays and a 10% labeling index cutoff resulted in high reproducibility across three separate laboratories and three independent readers for all tumor suppressors, as well as strong correlations with loss-of-function transcriptional scores (LOF-TS). Adding intensity assessment to labeling indices strengthened the association between IHC results and LOF-TS for TP53 and RB1, but not for PTEN. For TP53, genomic alterations determined by NGS had slightly higher agreement scores with LOF-TS than aberrant IHC, while for RB1 and PTEN, NGS and IHC determinations resulted in similar agreement scores with LOF-TS. Nonetheless, our results indicate that the AVPC-m components can be assessed reproducibly by IHC using various widely available standardized assays