AI Article Synopsis
- Cancer cells heavily rely on glucose for energy, and this research investigates how lactate dehydrogenase (LDH) affects a crucial DNA repair process called homologous recombination (HR).
- By studying two different cancer cell lines, the researchers found that inhibiting LDH impaired HR function regardless of the cells' energy metabolism type.
- The study suggests that LDH plays an important role beyond energy metabolism, indicating potential new drug combinations that could enhance cancer treatment by targeting both LDH and DNA repair mechanisms.
Article Abstract
Background: Cancer cells show highly increased glucose utilization which, among other cancer-essential functions, was found to facilitate DNA repair. Lactate dehydrogenase (LDH) activity is pivotal for supporting the high glycolytic flux of cancer cells; to our knowledge, a direct contribution of this enzyme in the control of DNA integrity was never investigated. In this paper, we looked into a possible LDH-mediated regulation of homologous recombination (HR) repair.
Methods: We identified two cancer cell lines with different assets in energy metabolism: either based on glycolytic ATP or on oxidative reactions. In cells with inhibited LDH, we assessed HR function by applying four different procedures.
Results: Our findings revealed an LDH-mediated control of HR, which was observed independently of cell metabolic asset. Since HR inhibition is known to make cancer cells responsive to PARP inhibitors, in both the cellular models we finally explored the effects of a combined inhibition of LDH and PARP.
Conclusions: The obtained results suggest for LDH a central role in cancer cell biology, not merely linked to the control of energy metabolism. The involvement of LDH in the DNA damage response could suggest new drug combinations to obtain improved antineoplastic effects.
General Significance: Several evidences have correlated the metabolic features of cancer cells with drug resistance and LDH inhibition has been repeatedly shown to increase the antineoplastic power of chemotherapeutics. By shedding light on the processes linking cell metabolism to the control of DNA integrity, our findings also give a mechanistic explanation to these data.
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| http://dx.doi.org/10.1016/j.bbagen.2020.129760 | DOI Listing |
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