Abstract
Benzimidazoles belong to a new class of bioreductive agents with cytotoxic activity towards solid tumor cells, especially in their first stage of growth, which is characterized by low oxygen concentration. Bioreductive agents represent a class of prodrugs that target hypoxic tumor cells. Their bioactivity depends on the reactivity of their functional chemical groups. Their efficacy requires metabolic reduction and subsequent generation of toxic prodrugs. Chemoresistance of tumor cells is a major problem for successful antitumor therapy for many types of tumors, especially for breast cancer. The present study was performed to assess the effect of the antiproliferation activity of the tested benzimidazoles by way of NF-κB expression inhibition. The activity of the tested compounds on T47D and MCF7 cells was examined by WST, western blot, NF-κB transactivation assay, and apoptotic cell population analysis. Compound 3 was highly cytotoxically active against T47D cells, especially in hypoxic conditions. Its IC50 of 0.31 ± 0.06 nM, although weaker than tirapazamine, was significantly higher than the other tested compounds (2.4–3.0 fold). The increased bax protein expression upon exposure to the tested compounds indicated intercellular apoptotic pathway activity, with tumor cell death by way of apoptosis. Increased bax protein synthesis and apoptotic cell dominance upon treatment, especially with N-oxide derivatives (92% apoptotic cells among T47D cell populations during treatment with compound 3), were correlated with each other. Additionally, both increased bax protein and decreased NF-κB protein expression supported antiproliferative activity via NF-κB–DNA binding inhibition associated with the tested compounds. Compound 3 appeared to be the strongest inhibitor of NF-κB expression in hypoxic conditions (the potency against NF-κB expression was about 75% of that of tirapazamine). The present studies involving this class of heterocyclic small molecules proved their potential usefulness in anticancer therapy as compounds be able to limit tumor cell proliferation and reverse drug resistance by NF-κB repression.
Highlights
The lack of success in the search for breast cancer antitumor therapy has stimulated the scientific world to search for the pathway which will support the hormonal treatment of this pathology and enable an antiproliferation approach [1]
Resistance to endocrine therapy for breast cancer is a common problem for many ER-positive patients [14,15,16]
One of the main factors involved in this pathology is the NF-κB transcription factor, which stimulates progression to estrogen-independent tumor growth
Summary
The lack of success in the search for breast cancer antitumor therapy has stimulated the scientific world to search for the pathway which will support the hormonal treatment of this pathology and enable an antiproliferation approach [1]. Traditional chemotherapy targets anti-apoptotic proteins, limiting recovery and even inducing drug resistance in the cancer [2]. NF-κB is active in inflammation and tumorigenesis, resulting from the stimulation of tissue proliferation and inhibition of programmed cell death in the apoptosis pathway [3,4]. NF-κB activity causes upregulation of anti-apoptotic protein genes and induction of cancer chemoresistance. Inflammation, which appears in cancer cells, is a complex physiological process which ensures the survival of the organism [5]
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