Inhibition of FoxM1-Mediated DNA repair by imipramine blue suppresses breast cancer growth and metastasis

Subapriya Rajamanickam, Subbarayalu Panneerdoss, Aparna Gorthi, Santosh Timilsina, Benjamin Onyeagucha, Dmytro Kovalskyy, Dmitri Ivanov, Martha A. Hanes, Ratna K. Vadlamudi, Yidong Chen, Alexander J. Bishop, Jack L. Arbiser, Manjeet K. Rao

Producción científica: Articlerevisión exhaustiva

43 Citas (Scopus)

Resumen

Purpose: The approaches aimed at inhibiting the ability of cancer cells to repair DNA strand breaks have emerged as promising targets for treating cancers. Here, we assessed the potential of imipramine blue (IB), a novel analogue of antidepressant imipramine, to suppress breast cancer growth and metastasis by inhibiting the ability of breast cancer cells to repair DNA strand breaks by homologous recombination (HR). Experimental Design: The effect of IB on breast cancer growth and metastasis was assessed in vitro as well as in preclinical mouse models. Besides, the therapeutic efficacy and safety of IB was determined in ex vivo explants from breast cancer patients. The mechanism of action of IB was evaluated by performing gene-expression, drug-protein interaction, cell-cycle, and DNA repair studies. Results: We show that the systemic delivery of IB using nanoparticle-based delivery approach suppressed breast cancer growth and metastasis without inducing toxicity in preclinical mouse models. Using ex vivo explants from breast cancer patients, we demonstrated that IB inhibited breast cancer growth without affecting normal mammary epithelial cells. Furthermore, our mechanistic studies revealed that IB may interact and inhibit the activity of proto-oncogene FoxM1 and associated signaling that play critical roles in HR-mediated DNA repair. Conclusions: These findings highlight the potential of IB to be applied as a safe regimen for treating breast cancer patients. Given that FoxM1 is an established therapeutic target for several cancers, the identification of a compound that inhibits FoxM1- and FoxM1-mediated DNA repair has immense translational potential for treating many aggressive cancers.

Idioma originalEnglish (US)
Páginas (desde-hasta)3524-3536
Número de páginas13
PublicaciónClinical Cancer Research
Volumen22
N.º14
DOI
EstadoPublished - jul 15 2016

ASJC Scopus subject areas

  • General Medicine

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