Abstract
Bezielle is a botanical extract that has selective anti-tumor activity, and has shown a promising efficacy in the early phases of clinical testing. Bezielle inhibits mitochondrial respiration and induces reactive oxygen species (ROS) in mitochondria of tumor cells but not in non-transformed cells. The generation of high ROS in tumor cells leads to heavy DNA damage and hyper-activation of PARP, followed by the inhibition of glycolysis. Bezielle therefore belongs to a group of drugs that target tumor cell mitochondria, but its cytotoxicity involves inhibition of both cellular energy producing pathways. We found that the cytotoxic activity of the Bezielle extract in vitro co-purified with a defined fraction containing multiple flavonoids. We have isolated several of these Bezielle flavonoids, and examined their possible roles in the selective anti-tumor cytotoxicity of Bezielle. Our results support the hypothesis that a major Scutellaria flavonoid, scutellarein, possesses many if not all of the biologically relevant properties of the total extract. Like Bezielle, scutellarein induced increasing levels of ROS of mitochondrial origin, progressive DNA damage, protein oxidation, depletion of reduced glutathione and ATP, and suppression of both OXPHOS and glycolysis. Like Bezielle, scutellarein was selectively cytotoxic towards cancer cells. Carthamidin, a flavonone found in Bezielle, also induced DNA damage and oxidative cell death. Two well known plant flavonoids, apigenin and luteolin, had limited and not selective cytotoxicity that did not depend on their pro-oxidant activities. We also provide evidence that the cytotoxicity of scutellarein was increased when other Bezielle flavonoids, not necessarily highly cytotoxic or selective on their own, were present. This indicates that the activity of total Bezielle extract might depend on a combination of several different compounds present within it.
Highlights
Bezielle (BZL101) is an aqueous extract of the aerial parts of the herb Scutellaria barbata long used for treatment of fevers and cancer in traditional Chinese medicine
We found that the cytotoxic activity of Bezielle in vitro co-purifies with a distinct chemically defined fraction that contains a number of polyphenolic phytochemicals known as flavonoids
We set out to analyze Scutellaria flavonoids in a number of assays designed to ascertain whether one or more of the compounds have the following activities determined for Bezielle: (a), induction of reactive oxygen species (ROS), of mitochondrial superoxide; (b) increase in ROS levels over time; (c) induction of oxidative stress induced selective tumor cell death; (d), dependence of cell death induction on presence of respiring mitochondria; (e), induction of DNA damage and hyper-activation of PARP; (f), disruption of cellular redox status; (g), inhibition of both cellular energy-producing pathways
Summary
Bezielle (BZL101) is an aqueous extract of the aerial parts of the herb Scutellaria barbata long used for treatment of fevers and cancer in traditional Chinese medicine. Bezielle extract had showed a promising anti-cancer activity in early clinical testing [2,3], but further clinical development of Bezielle would be advanced by the chemical identification of the compound(s) in Bezielle that are directly responsible for its anti-cancer activity. This strategy is the guiding principle of the anticancer research conducted at BioNovo that aims to bring to the practice of Western medicine some of the herbal knowledge accumulated in the Chinese traditional medicine. Flavonoids, in general, are considered to have anti-inflammatory, anti-oxidant and cancer-preventive properties (reviewed among others in [4,5,6])
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