Caffeine stabilizes <scp>Cdc</scp>25 independently of <scp>Rad</scp>3 in <scp><i>S</i></scp><i>chizosaccharomyces pombe</i> contributing to checkpoint override

Alao, John P.; Sjölander, Johanna Johansson; Baar, Juliane; Özbaki‐Yagan, Nejla; Kakoschky, Bianca; Sunnerhagen, Per

doi:10.1111/mmi.12592

Cited by 10 publications

(65 citation statements)

References 70 publications

(178 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We previously demonstrated that caffeine stabilises both wild type (wt) Cdc25-GFP int and the Cdc25 (9A) -GFP int mutant that lacks 9 major inhibitory phosphorylation sites and is normally degraded following exposure to genotoxic agents (Frazer & Young, 2011, Frazer & Young, 2012, Alao et al, 2014. In this study, exposure to 10 mM caffeine also stabilised the Cdc25 (12A) mutant protein that lacks all 12 inhibitory phosphorylation sites ( Fig.…”

Section: Caffeine Stabilises Cdc25 By Inhibiting Its Nuclear Degradationmentioning

confidence: 50%

“…Mik1 is required for maintenance of the replication damage checkpoint signalling in S. pombe mutants expressing Cdc25 (12A) -GFP int (Frazer & Young, 2011, Frazer & Young, 2012. As observed for rad3Δ and cds1Δ mutants (Alao et al, 2014), Cdc25 appeared more stable in a mik1Δ genetic background ( Fig. 1 A).…”

Section: Caffeine Stabilises Cdc25 By Inhibiting Its Nuclear Degradationmentioning

confidence: 56%

“…3 C). We previously demonstrated that caffeine stabilises Cdc25 in the nucleus of S. pombe cells exposed to genotoxic agents (Alao et al, 2014). Caffeine thus both stabilises Cdc25 and suppresses Wee1 expression under genotoxic conditions.…”

Section: Caffeine Suppresses Dna Damage-induced Wee1 Accumulationmentioning

confidence: 92%

“…3 A). Caffeine activates both the DNA damage response and environmental stress response pathways (Calvo et al, 2009, Alao et al, 2014. The effect of caffeine on Wee1 stability may thus be context dependent.…”

Section: Caffeine Suppresses Dna Damage-induced Wee1 Accumulationmentioning

confidence: 99%

“…The inhibition of TORC1 activity suppresses Wee1 expression, results in increased Cdc25 activation and drives cells into mitosis. In addition, the effect of caffeine on cell cycle progression resembles that of TORC1 inhibition (Petersen, 2009, Alao et al, 2014, Atkin et al, 2014. We previously demonstrated that caffeine overrides checkpoint signalling in part, by stabilising Cdc25 expression.…”

Section: Introductionmentioning

confidence: 96%

See 4 more Smart Citations

Caffeine stabilises fission yeast Wee1 in a Rad24-dependent manner but attenuates its expression in response to DNA damage identifying a putative role for TORC1 in mediating its effects on cell cycle progression

Alao

Johansson-Sjölander

Rallis

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

The widely consumed neuroactive compound caffeine has generated much interest due to its ability to override the DNA damage and replication checkpoints. Previously Rad3 and its homologues was thought to be the target of caffeine's inhibitory activity. Later findings indicate that the Target of Rapamycin Complex 1 (TORC1) is the preferred target of caffeine. Effective Cdc2 inhibition requires both the activation of the Wee1 kinase and inhibition of the Cdc25 phosphatase. The TORC1, DNA damage, and environmental stress response pathways all converge on Cdc25 and Wee1. We previously demonstrated that caffeine overrides DNA damage checkpoints by modulating Cdc25 stability. The effect of caffeine on cell cycle progression resembles that of TORC1 inhibition. Furthermore, caffeine activates the Sty1 regulated environmental stress response. Caffeine may thus modulate multiple signalling pathways that regulate Cdc25 and Wee1 levels, localisation and activity.Here we show that the activity of caffeine stabilises both Cdc25 and Wee1. The stabilising effect of caffeine and genotoxic agents on Wee1 was dependent on the Rad24 chaperone.Interestingly, caffeine inhibited the accumulation of Wee1 in response to DNA damage.Caffeine therefore modulates cell cycle progression contextually through increased Cdc25 activity and Wee1 repression following DNA damage via TORC1 inhibition.

show abstract

Section: Caffeine Stabilises Cdc25 By Inhibiting Its Nuclear Degradationmentioning

confidence: 50%

Section: Caffeine Stabilises Cdc25 By Inhibiting Its Nuclear Degradationmentioning

confidence: 56%

Section: Caffeine Suppresses Dna Damage-induced Wee1 Accumulationmentioning

confidence: 92%

Section: Caffeine Suppresses Dna Damage-induced Wee1 Accumulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 96%

See 3 more Smart Citations

Caffeine stabilises fission yeast Wee1 in a Rad24-dependent manner but attenuates its expression in response to DNA damage identifying a putative role for TORC1 in mediating its effects on cell cycle progression

Alao

Johansson-Sjölander

Rallis

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

The fission yeast FHIT homolog affects checkpoint control of proliferation and is regulated by mitochondrial electron transport

Sjölander

Sunnerhagen

2019

Cell Biology International

View full text Add to dashboard Cite

Genetic analysis has strongly implicated human FHIT (Fragile Histidine Triad) as a tumor suppressor gene, being mutated in a large proportion of early‐stage cancers. The functions of the FHIT protein have, however, remained elusive. Here, we investigated aph1+, the fission yeast homolog of FHIT, for functions related to checkpoint control and oxidative metabolism. In sublethal concentrations of DNA damaging agents, aph1Δ mutants grew with a substantially shorter lag phase. In aph1Δ mutants carrying a hypomorphic allele of cds1 (the fission yeast homolog of Chk2), in addition, increased chromosome fragmentation and missegregation were found. We also found that under hypoxia or impaired electron transport function, the Aph1 protein level was strongly depressed. Previously, FHIT has been linked to regulation of the human 9‐1‐1 checkpoint complex constituted by Hus1, Rad1, and Rad9. In Schizosaccharomyces pombe, the levels of all three 9‐1‐1 proteins are all downregulated by hypoxia in similarity with Aph1. Moreover, deletion of the aph1+ gene reduced the Rad1 protein level, indicating a direct relationship between these two proteins. We conclude that the fission yeast FHIT homolog has a role in modulating DNA damage checkpoint function, possibly through an effect on the 9‐1‐1 complex, and that this effect may be critical under conditions of limiting oxidative metabolism and reoxygenation.

show abstract

Genotoxic effect of caffeine in Yarrowia lipolytica cells deficient in DNA repair mechanisms

et al. 2019

View full text Add to dashboard Cite

Caffeine stabilizes Cdc25 independently of Rad3 in Schizosaccharomyces pombe contributing to checkpoint override

Cited by 10 publications

References 70 publications

Caffeine stabilises fission yeast Wee1 in a Rad24-dependent manner but attenuates its expression in response to DNA damage identifying a putative role for TORC1 in mediating its effects on cell cycle progression

Caffeine stabilises fission yeast Wee1 in a Rad24-dependent manner but attenuates its expression in response to DNA damage identifying a putative role for TORC1 in mediating its effects on cell cycle progression

The fission yeast FHIT homolog affects checkpoint control of proliferation and is regulated by mitochondrial electron transport

Genotoxic effect of caffeine in Yarrowia lipolytica cells deficient in DNA repair mechanisms

Contact Info

Product

Resources

About