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DNA Damage Response Protein CHK2 Regulates Metabolism in Liver Cancer

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This study uncovers a link between a central effector of DNA damage response, CHK2, and cellular metabolism, revealing potential therapeutic strategies for targeting hepatocellular carcinoma. Defective mitosis with chromosome missegregation… Click to show full abstract

This study uncovers a link between a central effector of DNA damage response, CHK2, and cellular metabolism, revealing potential therapeutic strategies for targeting hepatocellular carcinoma. Defective mitosis with chromosome missegregation can have a dramatic effect on genome integrity by causing DNA damage, activation of the DNA damage response (DDR), and chromosomal instability. Although this is an energy-dependent process, mechanisms linking DDR to cellular metabolism are unknown. Here we show that checkpoint kinase 2 (CHK2), a central effector of DDR, regulates cellular energy production by affecting glycolysis and mitochondrial functions. Patients with hepatocellular carcinoma (HCC) had increased CHK2 mRNA in blood, which was associated with elevated tricarboxylic acid cycle (TCA) metabolites. CHK2 controlled expression of succinate dehydrogenase (SDH) and intervened with mitochondrial functions. DNA damage and CHK2 promoted SDH activity marked by increased succinate oxidation through the TCA cycle; this was confirmed in a transgenic model of HCC with elevated DNA damage. Mitochondrial analysis identified CHK2-controlled expression of SDH as key in sustaining reactive oxygen species production. Cells with DNA damage and elevated CHK2 relied significantly on glycolysis for ATP production due to dysfunctional mitochondria, which was abolished by CHK2 knockdown. This represents a vulnerability created by the DNA damage response that could be exploited for development of new therapies. Significance: This study uncovers a link between a central effector of DNA damage response, CHK2, and cellular metabolism, revealing potential therapeutic strategies for targeting hepatocellular carcinoma.

Keywords: chk2; damage; damage response; dna damage

Journal Title: Cancer Research
Year Published: 2021

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