Curcumin and Its New Derivatives: Correlation between Cytotoxicity against Breast Cancer Cell Lines, Degradation of PTP1B Phosphatase and ROS Generation.
Tomasz KostrzewaKarol WołosewiczMarek JamrozikJoanna DrzeżdżonJulia SieminskaDagmara JacewiczMagdalena Gorska-PonikowskaMarcin KolaczkowskiRyszard ŁaźnyAlicja Kuban-JankowskaPublished in: International journal of molecular sciences (2021)
Breast cancer is the most common cancer of women-it affects more than 2 million women worldwide. PTP1B phosphatase can be one of the possible targets for new drugs in breast cancer therapy. In this paper, we present new curcumin derivatives featuring a 4-piperidone ring as PTP1B inhibitors and ROS inducers. We performed cytotoxicity analysis for twelve curcumin derivatives against breast cancer MCF-7 and MDA-MB-231 cell lines and the human keratinocyte HaCaT cell line. Furthermore, because curcumin is a known antioxidant, we assessed antioxidant effects in its derivatives. For the most potent cytotoxic compounds, we determined intracellular ROS and PTP1B phosphatase levels. Moreover, for curcumin and its derivatives, we performed real-time microscopy to observe the photosensitizing effect. Finally, computational analysis was performed for the curcumin derivatives with an inhibitory effect against PTP1B phosphatase to assess the potential binding mode of new inhibitors within the allosteric site of the enzyme. We observed that two tested compounds are better anticancer agents than curcumin. Moreover, we suggest that blocking the -OH group in phenolic compounds causes an increase in the cytotoxicity effect, even at a low concentration. Furthermore, due to this modification, a higher level of ROS is induced, which correlates with a lower level of PTP1B.
Keyphrases
- cell death
- reactive oxygen species
- dna damage
- structure activity relationship
- cancer therapy
- breast cancer cells
- squamous cell carcinoma
- anti inflammatory
- drug delivery
- small molecule
- protein kinase
- pregnant women
- climate change
- drug induced
- binding protein
- diabetic rats
- dna binding
- childhood cancer
- young adults
- single cell
- induced pluripotent stem cells
- pregnancy outcomes
- cell cycle arrest
- lymph node metastasis