Abstract
Recently, research has focused on targeting the oxidative and metabolic vulnerabilities in cancer cells. Natural compounds like curcumin that target such susceptibilities have failed further clinical advancements due to the poor stability and bioavailability as well as the need of high effective doses. We have synthesized and evaluated the anti-cancer activity of several monocarbonyl analogs of curcumin. Interestingly, two novel analogs (Compound A and I) in comparison to curcumin, have increased chemical stability and have greater anti-cancer activity in a variety of human cancer cells, including triple-negative, inflammatory breast cancer cells. In particular, the generation of reactive oxygen species was selective to cancer cells and occurred upstream of mitochondrial collapse and execution of apoptosis. Furthermore, Compound A in combination with another cancer-selective/pro-oxidant, piperlongumine, caused an enhanced anti-cancer effect. Most importantly, Compound A was well tolerated by mice and was effective in inhibiting the growth of human triple-negative breast cancer and leukemia xenografts in vivo when administered intraperitoneally. Thus, exploiting oxidative vulnerabilities in cancer cells could be a selective and efficacious means to eradicate malignant cells as demonstrated by the curcumin analogs presented in this report with high therapeutic potential.
Highlights
Much work has been done exemplifying metabolic and oxidative stress vulnerabilities as promising targets for triggering physiological cell death in cancers selectively[1]
When Compound A is combined with piperlongumine, another pro-oxidant molecule there was a significant enhancement in cell death, selectively in cancer cells
Previous literature has shown curcumin to be well tolerated in humans and to induce apoptosis selectively in cancerous cells with limited effects in normal cells in vitro[32,33,34]
Summary
Much work has been done exemplifying metabolic and oxidative stress vulnerabilities as promising targets for triggering physiological cell death in cancers selectively[1]. We report for the first time two novel analogs of curcumin that display increased chemical stability and enhanced cancer specific apoptosis inducing activity in comparison to curcumin These analogs were capable of efficiently killing triple-negative, inflammatory breast, p53-negative colorectal, and various blood cancer cell lines. These analogs induce apoptosis primarily by increasing ROS selectively in cancerous cells These results are complimented by the gene expression analysis that indicated Compound A induced differential expression of important genes related to redox systems in cancer cells. There were no observable changes in weight gain and behaviour, indicating overall tolerability These novel analogs of curcumin represent a class of compounds with potent anti-cancer activity through ROS generation in cancer cells
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