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Anti-EGFR Antibody–Drug Conjugate Carrying an Inhibitor Targeting CDK Restricts Triple-Negative Breast Cancer Growth

Anthony Cheung, Alicia M. Chenoweth, Annelie Johansson, Roman Laddach, Naomi Guppy, Jennifer Trendell, Benjamina Esapa, Antranik Mavousian, Blanca Navarro‐Llinas, Syed Haider, Pablo Romero-Clavijo, Ricarda M. Hoffmann, Paolo Andriollo, Khondaker Miraz Rahman, Paul Jackson, Sophia Tsoka, Sheeba Irshad, Ioannis Roxanis, Anita Grigoriadis, David E. Thurston, Christopher J. Lord, Andrew Tutt, Sophia N. Karagiannis

2024Clinical Cancer Research29 citationsDOIOpen Access PDF

Abstract

PURPOSE: Anti-EGFR antibodies show limited response in breast cancer, partly due to activation of compensatory pathways. Furthermore, despite the clinical success of cyclin-dependent kinase (CDK) 4/6 inhibitors in hormone receptor-positive tumors, aggressive triple-negative breast cancers (TNBC) are largely resistant due to CDK2/cyclin E expression, whereas free CDK2 inhibitors display normal tissue toxicity, limiting their therapeutic application. A cetuximab-based antibody drug conjugate (ADC) carrying a CDK inhibitor selected based on oncogene dysregulation, alongside patient subgroup stratification, may provide EGFR-targeted delivery. EXPERIMENTAL DESIGN: Expressions of G1/S-phase cell cycle regulators were evaluated alongside EGFR in breast cancer. We conjugated cetuximab with CDK inhibitor SNS-032, for specific delivery to EGFR-expressing cells. We assessed ADC internalization and its antitumor functions in vitro and in orthotopically grown basal-like/TNBC xenografts. RESULTS: Transcriptomic (6,173 primary, 27 baseline, and matched post-chemotherapy residual tumors), single-cell RNA sequencing (150,290 cells, 27 treatment-naïve tumors), and spatial transcriptomic (43 tumor sections, 22 TNBCs) analyses confirmed expression of CDK2 and its cyclin partners in basal-like/TNBCs, associated with EGFR. Spatiotemporal live-cell imaging and super-resolution confocal microscopy demonstrated ADC colocalization with late lysosomal clusters. The ADC inhibited cell cycle progression, induced cytotoxicity against high EGFR-expressing tumor cells, and bystander killing of neighboring EGFR-low tumor cells, but minimal effects on immune cells. Despite carrying a small molar fraction (1.65%) of the SNS-032 inhibitor, the ADC restricted EGFR-expressing spheroid and cell line/patient-derived xenograft tumor growth. CONCLUSIONS: Exploiting EGFR overexpression, and dysregulated cell cycle in aggressive and treatment-refractory tumors, a cetuximab-CDK inhibitor ADC may provide selective and efficacious delivery of cell cycle-targeted agents to basal-like/TNBCs, including chemotherapy-resistant residual disease.

Topics & Concepts

Cancer researchCyclin-dependent kinaseCetuximabBiologyCell cycleCDK inhibitorEGFR inhibitorsTriple-negative breast cancerBreast cancerEpidermal growth factor receptorCancerAntibodyImmunologyMonoclonal antibodyGeneticsAdvanced Breast Cancer TherapiesHER2/EGFR in Cancer ResearchCancer-related Molecular Pathways