Cytotoxic and Antioxidant Activity of Hypericum perforatum L. Extracts against Human Melanoma Cells from Different Stages of Cancer Progression, Cultured under Normoxia and Hypoxia.
Aleksandra BrankiewiczSara TrzosMagdalena MrożekMałgorzata OpydoElżbieta SzostakMichał DziurkaMonika TulejaAgnieszka LobodaEwa PochećPublished in: Molecules (Basel, Switzerland) (2023)
Oxidative stress and the hypoxic microenvironment play a key role in the progression of human melanoma, one of the most aggressive skin cancers. The aim of our study was to evaluate the effect of Hypericum perforatum extracts of different origins (both commercially available (HpEx2) and laboratory-prepared from wild grown (HpEx12) and in vitro cultured (HpEx13) plants) and hyperforin salt on WM115 primary and WM266-4 lymph node metastatic human melanoma cells cultured under normoxic and hypoxic conditions. The polyphenol content, radical scavenging activity, and hyperforin concentration were determined in the extracts, while cell viability, apoptosis, ROS production, and expression of NRF2 and HO-1, important oxidative stress-related factors, were analyzed after 24 h of cell stimulation with HpExs and hyperforin salt. We found that cytotoxic, pro-apoptotic and antioxidant effects depend on the extract composition, the stage of melanoma progression, and the oxygen level. Hyperforin salt showed lower activity than H. perforatum extracts. Our study for the first time showed that the anticancer activity of H. perforatum extracts differs in normoxia and hypoxia. Importantly, the composition of extracts of various origins, including in vitro cultured, resulting in their unique properties, may be important in the selection of plants for therapeutic application.
Keyphrases
- endothelial cells
- oxidative stress
- lymph node
- dna damage
- cell death
- anti inflammatory
- squamous cell carcinoma
- diabetic rats
- ischemia reperfusion injury
- small cell lung cancer
- induced pluripotent stem cells
- pluripotent stem cells
- poor prognosis
- stem cells
- papillary thyroid
- radiation therapy
- endoplasmic reticulum stress
- lymph node metastasis
- heat stress
- young adults
- plant growth