Targeting CAR and Nrf2 improves cyclophosphamide bioactivation while reducing doxorubicin-induced cardiotoxicity in triple-negative breast cancer treatment
Sydney Stern, Dongdong Liang, Linhao Li, Ritika Kurian, Caitlin Lynch, Srilatha Sakamuru, Scott Heyward, Junran Zhang, Kafayat Ajoke Kareem, Young Wook Chun, Ruili Huang, Menghang Xia, Charles C. Hong, Fengtian Xue, Hongbing Wang
Sydney Stern, Dongdong Liang, Linhao Li, Ritika Kurian, Caitlin Lynch, Srilatha Sakamuru, Scott Heyward, Junran Zhang, Kafayat Ajoke Kareem, Young Wook Chun, Ruili Huang, Menghang Xia, Charles C. Hong, Fengtian Xue, Hongbing Wang
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Research Article Oncology Therapeutics

Targeting CAR and Nrf2 improves cyclophosphamide bioactivation while reducing doxorubicin-induced cardiotoxicity in triple-negative breast cancer treatment

Abstract

Cyclophosphamide (CPA) and doxorubicin (DOX) are key components of chemotherapy for triple-negative breast cancer (TNBC), although suboptimal outcomes are commonly associated with drug resistance and/or intolerable side effects. Through an approach combining high-throughput screening and chemical modification, we developed CN06 as a dual activator of the constitutive androstane receptor (CAR) and nuclear factor erythroid 2-related factor 2 (Nrf2). CN06 enhances CAR-induced bioactivation of CPA (a prodrug) by provoking hepatic expression of CYP2B6, while repressing DOX-induced cytotoxicity in cardiomyocytes in vitro via stimulating Nrf2-antioxidant signaling. Utilizing a multicellular coculture model incorporating human primary hepatocytes, TNBC cells, and cardiomyocytes, we show that CN06 increased CPA/DOX-mediated TNBC cell death via CAR-dependent CYP2B6 induction and subsequent conversion of CPA to its active metabolite 4-hydroxy-CPA, while protecting against DOX-induced cardiotoxicity by selectively activating Nrf2-antioxidant signaling in cardiomyocytes but not in TNBC cells. Furthermore, CN06 preserves the viability and function of human iPSC–derived cardiomyocytes by modulating antioxidant defenses, decreasing apoptosis, and enhancing the kinetics of contraction and relaxation. Collectively, our findings identify CAR and Nrf2 as potentially novel combined therapeutic targets whereby CN06 holds the potential to improve the efficacy/toxicity ratio of CPA/DOX-containing chemotherapy.

Authors

Sydney Stern, Dongdong Liang, Linhao Li, Ritika Kurian, Caitlin Lynch, Srilatha Sakamuru, Scott Heyward, Junran Zhang, Kafayat Ajoke Kareem, Young Wook Chun, Ruili Huang, Menghang Xia, Charles C. Hong, Fengtian Xue, Hongbing Wang

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Figure 6

CN06 enhances cell death in BT549 cells while protecting H9c2 cells treated with the DOX/CPA combination in a multicellular coculture model.

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CN06 enhances cell death in BT549 cells while protecting H9c2 cells trea...
(A) Schematic illustration of the multicellular coculture model containing BT549 cells, H9c2 cardiomyocytes, and HPH. (B and C) In the coculture model, CPA/DOX-induced cell death in BT549 (B) and H9c2 (C) cells was measured in the presence and absence of CN06 (10 μM), respectively (n = 3, data represent mean ± SD, 2-way ANOVA with Bonferroni post hoc). (D and F) Treated BT549 (D) and H9c2 (F) cells were removed from the coculture system and fixed with 4% paraformaldehyde, followed by an immunostaining for H2AX phosphorylated at serine-139 position of histone (γ-H2AX). (E and G) Relative γ-H2AX signal was quantified using NIS-Element Analysis using bright-spot detection and normalized to the vehicle control. FITC channel was modified to red for readers’ clarity, and DAPI staining of nucleus was in blue. Three whole-well images from each group were used for signal quantification. Data were analyzed using a 2-way ANOVA with a Bonferroni post hoc. Representative images via fluorescence microscopy are shown. All values are presented as fold change versus treatment control. Statistical significance was determined at **P < 0.01, ***P < 0.001. Original magnification ×10.