AI Article Synopsis
- Traditional cancer treatments primarily kill differentiated cancer cells but often fail against surviving cancer resistant cells (CRC) and cancer stem cells (CSC), leading to metastasis and recurrences.
- These resistant cells use mechanisms like drug withdrawal and enhanced DNA repair to evade treatment, and their energy production relies more on oxidative phosphorylation than on glycolysis.
- Mitochondrial dysfunction-inducing compounds, particularly certain antibiotics, are explored as a promising alternative cancer therapy, with recent studies highlighting their potential in targeting CSCs.
Article Abstract
Traditional cancer treatments based on chemo- and/or radiotherapy effectively kill only differentiated cancer cells, while metastasis and recurrences are caused by surviving cancer resistant cells (CRC) or a special subpopulation of cancer cells known as cancer stem cells (CSC). Both of these cell types compromise anticancer treatment through various mechanisms, including withdrawal of the anticancer drug through ATP-binding cassette transporters, increased expression of DNA repair genes, or transition to a quiescent phenotype. In contrast to many cancers, where energy consumption is due to glycolysis (Warburg effect), the bioenergetics of CSC and CRC is most often related to oxidative phosphorylation, that is, dependent on mitochondrial function. Therefore, compounds that induce mitochondrial dysfunction (MDF), such as some antibiotics, may represent an alternative approach to anticancer therapy. This review summarizes the major recent works on the use of antibiotics to target tumors via CSC and suggests next steps for developing this approach.
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| http://dx.doi.org/10.1016/j.bcp.2022.114966 | DOI Listing |
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