Anja Göder scite author profile

Checkpoint kinases sense replicative stress to prevent DNA damage. Here we show that the histone deacetylases HDAC1/HDAC2 sustain the phosphorylation of the checkpoint kinases ATM, CHK1 and CHK2, activity of the cell cycle gatekeeper kinases WEE1 and CDK1, and induction of the tumour suppressor p53 in response to stalled DNA replication. Consequently, HDAC inhibition upon replicative stress promotes mitotic catastrophe. Mechanistically, HDAC1 and HDAC2 suppress the expression of PPP2R3A/PR130, a regulatory subunit of the trimeric serine/threonine phosphatase 2 (PP2A). Genetic elimination of PR130 reveals that PR130 promotes dephosphorylation of ATM by PP2A. Moreover, the ablation of PR130 slows G1/S phase transition and increases the levels of phosphorylated CHK1, replication protein A foci and DNA damage upon replicative stress. Accordingly, stressed PR130 null cells are very susceptible to HDAC inhibition, which abrogates the S phase checkpoint, induces apoptosis and reduces the homologous recombination protein RAD51. Thus, PR130 controls cell fate decisions upon replicative stress.

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Class I histone deacetylases regulate p53/NF-κB crosstalk in cancer cells

Schäfer

Göder

Beyer

et al. 2017

Cellular Signalling

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Lipoic acid induces p53-independent cell death in colorectal cancer cells and potentiates the cytotoxicity of 5-fluorouracil

et al. 2014

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Alpha-lipoic acid (LA), which plays a pivotal role in mitochondrial energy metabolism, is an endogenous dithiol compound with an array of antioxidative functions. It has been shown that LA triggers cell death in tumor cell lines, whereas non-transformed cells are hardly affected. In the present study, we analyzed the cytotoxicity of LA on colorectal cancer (CRC) cells differing in their p53 status and investigated a putative synergistic effect with the anticancer drug 5-fluorouracil (5-FU). We show that LA induces a dose-dependent decrease in cell viability, which was independent of the p53 status as attested in isogenic p53-proficient and p53-deficient cell lines. This effect was largely attributable to cell death induction as revealed by Annexin-V/PI staining. LA-treated HCT116 cells underwent caspase-dependent and caspase-independent cell death, which was blocked by the pan-caspase inhibitor zVAD and the RIP-kinase inhibitor Necrostatin-1, respectively. In CaCO-2 and HT29 cells, LA induced caspase-dependent cell demise via activation of caspase-9, caspase-3 and caspase-7 with subsequent PARP-1 cleavage as demonstrated by immunoblot analysis, activity assays and pan-caspase inhibition. Interestingly, LA treatment did neither activate p53 nor induced genotoxic effects as shown by lack of DNA strand breaks and phosphorylation of histone 2AX. Finally, we provide evidence that LA increases the cytotoxic effect induced by the anticancer drug 5-FU as revealed by significantly enhanced cell death rates in HCT116 and CaCO-2 cells. Collectively, these findings demonstrate that LA induces CRC cell death independent of their p53 status and potentiates the cytotoxicity of 5-FU without causing DNA damage on its own, which makes it a candidate for tumor therapy.

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Lipoic acid inhibits the DNA repair proteinO⁶-methylguanine-DNA methyltransferase (MGMT) and triggers its depletion in colorectal cancer cells with concomitant autophagy induction

Göder

Nagel

Kraus

et al. 2015

CARCIN

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Alkylating agents are present in food and tobacco smoke, but are also used in cancer chemotherapy, inducing the DNA lesion O (6)-methylguanine. This critical adduct is repaired by O (6)-methylguanine-DNA methyltransferase (MGMT), resulting in MGMT inactivation and degradation. In the present study, we analyzed the effects of the natural disulfide compound lipoic acid (LA) on MGMT in vitro and in colorectal cancer cells. We show that LA, but not its reduced form dihydrolipoic acid, potently inhibits the activity of recombinant MGMT by interfering with its catalytic Cys-145 residue, which was partially reversible by N-acetyl cysteine. Incubation of HCT116 colorectal cancer cells with LA altered their glutathione pool and caused a decline in MGMT activity. This was mirrored by LA-induced depletion of MGMT protein, which was not attributable to changes in MGMT messenger RNA levels. Loss of MGMT protein coincided with LA-induced autophagy, a process resulting in lysosomal degradation of proteins, including presumably MGMT. LA-stimulated autophagy in a p53-independent manner as revealed by the response of isogenic HCT116 cell lines. Knockdown of the crucial autophagy component beclin-1 and chemical inhibitors blocked LA-induced autophagy, but did not abrogate LA-triggered MGMT degradation. Concomitant with MGMT depletion, LA pretreatment resulted in enhanced O (6)-methylguanine levels in DNA. It also increased the cytotoxicity of the alkylating anticancer drug temozolomide in temozolomide-resistant colorectal cancer cells. Taken together, our study showed that the natural compound LA inhibits MGMT and induces autophagy. Furthermore, LA enhanced the cytotoxic effects of temozolomide, which makes it a candidate for a supplement in cancer therapy.

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CDC7 kinase promotes MRE11 fork processing, modulating fork speed and chromosomal breakage

et al. 2020

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The CDC7 kinase is essential for the activation of DNA replication origins and has been implicated in the replication stress response. Using a highly specific chemical inhibitor and a chemical genetic approach, we now show that CDC7 activity is required to coordinate multiple MRE11-dependent processes occurring at replication forks, independently from its role in origin firing. CDC7 localizes at replication forks and, similarly to MRE11, mediates active slowing of fork progression upon mild topoisomerase inhibition. Both proteins are also retained on stalled forks, where they promote fork processing and restart. Moreover, MRE11 phosphorylation and localization at replication factories are progressively lost upon CDC7 inhibition. Finally, CDC7 activity at reversed forks is required for their pathological MRE11-dependent degradation in BRCA2deficient cells. Thus, upon replication interference CDC7 is a key regulator of fork progression, processing and integrity. These results highlight a dual role for CDC7 in replication, modulating both initiation and elongation steps of DNA synthesis, and identify a key intervention point for anticancer therapies exploiting replication interference.

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Anja Göder

HDAC1 and HDAC2 integrate checkpoint kinase phosphorylation and cell fate through the phosphatase-2A subunit PR130

Class I histone deacetylases regulate p53/NF-κB crosstalk in cancer cells

Lipoic acid induces p53-independent cell death in colorectal cancer cells and potentiates the cytotoxicity of 5-fluorouracil

Lipoic acid inhibits the DNA repair proteinO⁶-methylguanine-DNA methyltransferase (MGMT) and triggers its depletion in colorectal cancer cells with concomitant autophagy induction

CDC7 kinase promotes MRE11 fork processing, modulating fork speed and chromosomal breakage

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Anja Göder

HDAC1 and HDAC2 integrate checkpoint kinase phosphorylation and cell fate through the phosphatase-2A subunit PR130

Class I histone deacetylases regulate p53/NF-κB crosstalk in cancer cells

Lipoic acid induces p53-independent cell death in colorectal cancer cells and potentiates the cytotoxicity of 5-fluorouracil

Lipoic acid inhibits the DNA repair proteinO6-methylguanine-DNA methyltransferase (MGMT) and triggers its depletion in colorectal cancer cells with concomitant autophagy induction

CDC7 kinase promotes MRE11 fork processing, modulating fork speed and chromosomal breakage

Contact Info

Product

Resources

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Lipoic acid inhibits the DNA repair proteinO⁶-methylguanine-DNA methyltransferase (MGMT) and triggers its depletion in colorectal cancer cells with concomitant autophagy induction