EGFR- and HER3-targeted bispecific antibody-drug conjugate demonstrates antitumor activity in metastatic castration-resistant prostate cancer
Bangwei Fang, Xiaomeng Li, Ying Lu, Weiwei Ma, Hualei Gan, Tingwei Zhang, Qi Liu, Beihe Wang, Zixian Wang, Yi Zhu, Hai Zhu, Sa Xiao, Xiaojie Bian, Gonghong Wei, Dingwei Ye, Yao Zhu
Bangwei Fang, Xiaomeng Li, Ying Lu, Weiwei Ma, Hualei Gan, Tingwei Zhang, Qi Liu, Beihe Wang, Zixian Wang, Yi Zhu, Hai Zhu, Sa Xiao, Xiaojie Bian, Gonghong Wei, Dingwei Ye, Yao Zhu
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Research Article Clinical Research Oncology

EGFR- and HER3-targeted bispecific antibody-drug conjugate demonstrates antitumor activity in metastatic castration-resistant prostate cancer

Abstract

Metastatic castration-resistant prostate cancer (mCRPC) remains lethal with limited treatment options. Antibody–drug conjugates (ADCs) have emerged as a transformative class across multiple solid tumors, yet their clinical application in prostate cancer has been limited. Izalontamab brengitecan (Iza-bren; BL-B01D1) is a bispecific ADC-targeting EGFR and HER3 that has demonstrated activity in other malignancies. Here, we evaluated its therapeutic potential in the treatment of prostate cancer. Multi-omics analyses revealed frequent EGFR and HER3 expression in CRPC adenocarcinoma but not in neuroendocrine subtypes. BL-B01D1 exerted potent, target-dependent cytotoxicity in prostate cancer cell lines, xenografts, and patient-derived organoids (PDOs). We highlight a representative patient with mCRPC with high EGFR/HER3 expression whose disease rapidly and durably mounted a clinical and radiologic response to BL-B01D1, concordant with matched PDO sensitivity. Mechanistic studies identified ABCG2 upregulation as a driver of acquired resistance, with genetic or pharmacologic inhibition restoring BL-B01D1 sensitivity. Importantly, tumor tissue obtained at progression after BL-B01D1 treatment confirmed ABCG2 upregulation, validating a clinically relevant resistance mechanism. These findings support BL-B01D1 as a promising therapeutic strategy in mCRPC and indicate ABCG2 may be a rational target for overcoming resistance.

Authors

Bangwei Fang, Xiaomeng Li, Ying Lu, Weiwei Ma, Hualei Gan, Tingwei Zhang, Qi Liu, Beihe Wang, Zixian Wang, Yi Zhu, Hai Zhu, Sa Xiao, Xiaojie Bian, Gonghong Wei, Dingwei Ye, Yao Zhu

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Figure 7

ABCG2 upregulation mediates acquired resistance to BL-B01D1.

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ABCG2 upregulation mediates acquired resistance to BL-B01D1. (A) Schemat...
(A) Schematic of the generation of the 22Rv1 BL-B01D1_R subline. (B) Cell viability assays of parental and BL-B01D1_R cells treated with escalating doses of BL-B01D1 (n = 3). (C) Representative images and quantification of colony formation assays of parental and resistant cells treated with the indicated concentrations of BL-B01D1 (n = 3). (D) Principal component analysis (PCA) based on RNA-Seq data comparing transcriptional profiles of parental and resistant cells. (E) Volcano plot showing differentially expressed genes between parental and BL-B01D1_R cells. FC, fold change. (F) Immunoblot of the indicated proteins in parental and BL-B01D1–resistant 22Rv1 cells. (G) IHC staining of ABCG2 in pretreatment (Pre) and progressive lesions from the patient who developed resistance to BL-B01D1 treatment. Scale bar, 200 μm. Post, post-treatment. (H) Cell viability of 22Rv1-BL-B01D1_R/sgNT and 22Rv1-BL-B01D1_R/sgABCG2 treated with increasing concentration of BL-B01D1 (n = 3). Corresponding Western blot results are shown. (I) Cell viability of 22Rv1/vector and 22Rv1/ABCG2-OE treated with increasing concentration of BL-B01D1 (n = 3). Corresponding Western blot results are shown. (J) Dose-response matrix of 22Rv1 BL-B01D1_R cells after treatment with a combination of BL-B01D1 and Ko143 (n = 3). Matrix was generated by online SynergyFinder 3.0 software. % Inhib., percentage of inhibition. (K) Zero-interaction potency (ZIP) synergy score of BL-B01D1 in combination with Ko143 in 22Rv1 BL-B01D1_R cells (n = 3), calculated using the online SynergyFinder 3.0 software. Data are reported as mean ± SD (B, C, H, and I). Statistical significance was determined by 1-way ANOVA with Dunnett’s multiple comparisons (C).