Abstract
Cardiotoxicity is an aggravating side effect of many clinical antineoplastic agents such as arsenic trioxide (As2O3), which is the first-line treatment for acute promyelocytic leukemia (APL). Clinically, drug combination strategies are widely applied for complex disease management. Here, an optimized, cardiac-friendly therapeutic strategy for APL was investigated using a combination of As2O3 and genistein or resveratrol. Potential combinations were explored with respect to their effects on mitochondrial membrane potential, reactive oxygen species, superoxide dismutase activity, autophagy, and apoptosis in both NB4 cells and neonatal rat left ventricular myocytes. All experiments consistently suggested that 5 µM resveratrol remarkably alleviates As2O3-induced cardiotoxicity. To achieve an equivalent effect, a 10-fold dosage of genistein was required, thus highlighting the dose advantage of resveratrol, as poor bioavailability is a common concern for its clinical application. Co-administration of resveratrol substantially amplified the anticancer effect of As2O3 in NB4 cells. Furthermore, resveratrol exacerbated oxidative stress, mitochondrial damage, and apoptosis, thereby reflecting its full range of synergism with As2O3. Addition of 5 µM resveratrol to the single drug formula of As2O3 also further increased the expression of LC3, a marker of cellular autophagy activity, indicating an involvement of autophagy-mediated tumor cell death in the synergistic action. Our results suggest a possible application of an As2O3 and resveratrol combination to treat APL in order to achieve superior therapeutics effects and prevent cardiotoxicity.
Highlights
Due to its substantial anticancer effect, arsenic trioxide (As2O3) has been recommended as the front-line agent for treatment of acute promyelocytic leukemia (APL), for cases of relapsed or refractory APL [1,2,3]
In contrast to these phenomena observed in NB4 cells, the drug combination treatment in neonatal rat left ventricular myocytes (NRLVMs) showed neutralized effects on reactive oxygen species (ROS) generation, membrane potential (MMP), GSH level, and superoxide dismutase (SOD) activity rather than synergistic effects (Figures 1–3 and S1B)
The outstanding benefit of As2O3 treatment for APL is due to its ability to initiate the degradation of PML/RAR alpha, a core driving oncoprotein of APL [34]
Summary
Due to its substantial anticancer effect, arsenic trioxide (As2O3) has been recommended as the front-line agent for treatment of acute promyelocytic leukemia (APL), for cases of relapsed or refractory APL [1,2,3]. A prophylactic strategy was proposed that is based on maintaining mitochondrial function to guard against As2O3-induced oxidative stress [14] This suggests that natural, strong antioxidants might be ideal drug candidates. Such antioxidants have been investigated as rational cardioprotectants against the cardiotoxicity induced by As2O3, including the flavonoid genistein (Gen) as well resveratrol (Rev), a stilbene that is enriched in red wine [15,16]. Previous studies have validated the anticancer effect of Gen and Rev independently [18,19], it is still unknown whether they can be effective at suppressing the proliferation of APL cancer cells and assist As2O3 This is a important line of evidence that is required to determine whether the proposed new method is superior to the currently widely applied As2O3 monotherapy strategy
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