Keiji Furuuchi

Antitumor Effect of Farletuzumab Ecteribulin in Molecular Subtypes of Endometrial Cancer Patient-Derived Xenograft Models

Abstract Endometrial cancer represents a significant health burden globally, particularly in postmenopausal women. Current treatment options for advanced-stage endometrial cancer remain limited, emphasizing the need for novel therapeutic strategies. This study aimed to investigate farletuzumab ecteribulin (FZEC), an antibody–drug conjugate targeting folate receptor α (FRα), as a potential new therapeutic agent for endometrial cancer. We utilized a panel of 22 patient-derived xenograft (PDX) models, representing various histologic and molecular subtypes of endometrial cancer with different levels of FRα expression, to evaluate the antitumor effect of FZEC. FZEC was administered intravenously at doses of 5 and 12.5 mg/kg on day 0. Intratumoral accumulation of eribulin, the payload of FZEC, was visualized using phosphor-integrated dot imaging. FZEC demonstrated dose-dependent antitumor effects across the endometrial cancer–PDX panel. At 5 mg/kg, the FZEC efficacy was associated with FRα expression, with 100% of FRα 3+ models exhibiting tumor shrinkage compared with 33.3% of FRα-negative models. FZEC also demonstrated broad activity across both histologic and molecular subtypes. Intratumoral eribulin accumulation was highly correlated with antitumor effects, even in models with low FRα expression. Follow-up studies confirmed FRα-dependent antitumor effects while also indicating potential FRα-independent mechanisms of action. FZEC demonstrated a robust antitumor effect against the FRα-high endometrial cancer–PDX models with significant antitumor effects also observed, even in FRα-low or FRα-negative models. Notably, intratumoral eribulin accumulation exhibited a stronger correlation with efficacy than with FRα expression alone. These findings support further clinical development of FZEC for endometrial cancer treatment and highlight the complexity of the mechanisms of action of antibody–drug conjugates.

Establishing a comprehensive panel of patient-derived xenograft models for high-grade endometrial carcinoma: molecular subtypes, genetic alterations, and therapeutic target profiling

High-grade endometrial cancer (EC) has a poor prognosis, but molecular classification-based treatments present new therapeutic opportunities. Antibody-drug conjugates (ADC) emerge as promising tools, yet a deeper understanding of antigen dynamics, optimal therapeutic sequencing, and resistance mechanisms is essential. This study investigates the utility of patient-derived xenograft (PDX) models for EC as preclinical platforms, evaluating molecular subtypes and the ADC targets expression of patient and PDX tumors. We developed a comprehensive panel of molecularly characterized PDX models from patients with EC representing various histological types. Molecular subtypes and gene alterations were analyzed using sequencing and immunohistochemistry. ADC targets, including human epidermal growth factor receptor 2, trophoblast cell-surface antigen 2, B7-H4, folate receptor alpha, and cadherin-6, were profiled. Thirty-one EC-PDX models were successfully established, maintaining histological fidelity and 93.1 % molecular subtype consistency with the patient tumors. Notably, 80.6 % of the PDX models exhibited high expression (2+/3+) of at least one ADC target, and 54.8 % displayed high expression of multiple targets. Remarkably, 9.7 % showed high expression of all targets, with gene mutations also characterized. Meanwhile, patient tumors, 78.8 % showed high expression (2+/3+) of at least one ADC target, and 63.6 % showed high expression of multiple targets. The molecularly classified EC-PDX panel, enriched with detailed antigen profiles and genetic data, provides a robust platform for investigating novel ADC therapies and precision treatment strategies for high-grade EC.