Acquired genomic alterations in circulating tumor DNA from patients receiving abemaciclib alone or in combination with endocrine therapy

3519 Background: An understanding of the mechanisms of acquired resistance to CDK4 & 6 inhibitors, either alone or with endocrine therapy (ET), is an unmet need. Abemaciclib is a CDK4 & 6 inhibitor approved for treatment of HR+, HER2- advanced breast cancer (ABC). Here we evaluated acquired genomic alterations detected in circulating tumor DNA (ctDNA) from patients (pts) treated with abemaciclib + nonsteroidal aromatase inhibitor (AI) or placebo + AI in MONARCH 3 or abemaciclib monotherapy in nextMONARCH 1. Methods: MONARCH 3 randomized postmenopausal women with HR+, HER2- ABC with no prior systemic therapy in the advanced setting to abemaciclib (150 mg Q12H) or placebo + AI. nextMONARCH 1 randomized women with HR+, HER2- metastatic breast cancer who had progressed on or after prior ET and CT to abemaciclib (150 mg Q12H) + tamoxifen, abemaciclib (150 mg Q12H), or abemaciclib (200 mg Q12H) + loperamide. Plasma from pts in the abemaciclib or placebo + AI arms (MONARCH 3) or abemaciclib monotherapy arms (nextMONARCH 1) was analyzed by the Guardant360 assay to identify potential tumor-related genomic alterations including point mutations, indels, amplifications, and fusions acquired at EOT in comparison with baseline. Results: For MONARCH 3, commonly acquired alterations at EOT included ESR1 (17%), TP53 (10%), EGFR (8%), FGFR1 (7%), and PDGFRA (7%) in the abemaciclib + AI arm, and ESR1 (31%), TP53 (10%), and BRCA1 (7%) in the placebo + AI arm. Acquired alterations more frequent for abemaciclib + AI pts included RB1 (6%), MYC (5%), and AR (5%), compared to 0% in the placebo + AI arm (p = 0.008 RB1; p = 0.015 MYC or AR). In contrast, acquired ESR1 alterations were less frequent with abemaciclib + AI vs placebo + AI (17% vs 31%, p = 0.038). In nextMONARCH 1, the most commonly acquired alterations with abemaciclib monotherapy were in TP53 (10%), EGFR (9%), RB1 (9%), MYC (9%), and MET (8%). In addition, acquired alterations in ESR1 (6%) and AR (3%) were also found. PIK3CA alterations were not frequently acquired (abemaciclib + AI 1%, placebo + AI 6%, abemaciclib monotherapy 5%). Conclusions: Acquired genomic alterations potentially associated with emerging mechanisms of resistance to abemaciclib alone or in combination with AI may include RB1, MYC, or AR alterations, while the acquisition of ESR1 alterations was less common in pts treated with abemaciclib + AI compared to placebo + AI. These findings are hypothesis-generating and provide insight into mechanisms of resistance to abemaciclib vs ET. Clinical trial information: NCT02246621, NCT02747004 .