Abstract

Abstract Background: Metastatic breast cancer (MBC) subtype characterization is critical for effective treatment. The DefineMBC™ multiomic blood biopsy clinical diagnostic combines ctDNA and circulating tumor cell (CTC) analyses to characterize MBC patients when a tissue biopsy is not feasible. Innovation in the DefineMBC 2.0 5-channel immunofluorescent (IF) CTC characterization assay now measures ultralow (UL) levels of HER2 protein expression, ER protein expression, and chromosomal instability (CI) as well as ERBB2 amplification via single- cell sequencing. Cell-level HER2/ER co-detection enables monitoring of receptor conversion during a patient’s MBC treatment journey. As trastuzumab-deruxtecan (T-DxD) has become standard of care for HER2-low disease, distinguishing HER2-UL from HER2[-] by DefineMBC’s liquid biopsy approach may identify additional patients who can benefit from such therapy. This addresses an unmet need given the known shortcomings of tissue biopsy IHC in the metastatic setting as recently noted by communications from NCCN, ASCO, and the College of American Pathologists. Methods: Assay development including analytical validation studies utilized biologically relevant cell lines of epithelial origin and known expression levels of HER2 and ER (MDA-MB-453: HER2[+] & ER[-]; MCF-7: HER2-low & ER[+]; and MCF-7/ERBB2 knockout: HER2[-]) that were spiked into healthy donor blood. Additionally, patients with various forms of MBC were characterized with the new assay. As with all samples, following red blood cell lysis, nucleated cells were deposited on glass slides at high density (∼3E6 WBC/slide). Slides underwent IF staining for cytokeratins (CK), CD31, CD45, HER2, ER, and Hoechst to localize nuclear DNA, followed by scanning and machine learning-based rare cell detection. CK[+], CD31[-]/CD45[-] cells were classified as CTC candidates and assessed for HER2/ER expression. Pathologist-selected CTCs were isolated for single-cell whole genome sequencing and analyzed using a proprietary CTC DNA copy number pipeline to detect CI and amplification at the ERBB2 locus. Results: Analytical validation studies demonstrated the limit of detection at 1 CTC per 12E6 WBC (∼1.6 mL of blood) with a linear range of 1- 300 CTCs per slide. Sensitivity, specificity, accuracy, and precision metrics of the HER2 and ER IF assays were 96%, 96%, 96%, 2% CV; 91%, 95%, 93%, 3% CV; respectively. CTC enumeration precision was validated at greater than 80% for enumeration bins of 0, 1-10, 11-50, and>50 CTCs per sample. During patient testing 7 patients previously called HER2[-] are now designated as consistent with HER2-low by the pathologist, suggesting improved test performance in future clinical validation studies is likely. Conclusions: Advancement of our comprehensive cancer profiling platform now includes ER/HER2-UL/CI co-detection on enumerated CTCs in MBC patients. Clinical studies currently in progress will reveal whether HER2-UL/HER2[+] detection on CTCs will identify patients better suited for T-DxD or trastuzumab, respectively. Citation Format: Raj Srikrishnan, Jordan Ritchie, Alessandra Cunsolo, Andrew Kunihiro, Brandon Guillory, Sara Tin, Zhuo Meng, Ernest T Lam, Bharat Annaldas, Evan Schwab, Nilesh Dharajiya, Timothy Pluard, Martin Blankfard, David Bourdon. Analytical validation of a novel multiomic metastatic breast cancer liquid biopsy test that combines ctDNA analysis with CTC HER2-ultralow and ER co-expression, as well as single-cell chromosomal instability [abstract]. In: Proceedings of the AACR Special Conference: Liquid Biopsy: From Discovery to Clinical Implementation; 2024 Nov 13-16; San Diego, CA. Philadelphia (PA): AACR; Clin Cancer Res 2024;30(21_Suppl):Abstract nr A001.

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