Abstract
Fission yeast ‘cut’ mutants show defects in temporal coordination of nuclear division with cytokinesis, resulting in aberrant mitosis and lethality. Among other causes, the ‘cut’ phenotype can be triggered by genetic or chemical perturbation of lipid metabolism, supposedly resulting in shortage of membrane phospholipids and insufficient nuclear envelope expansion during anaphase. Interestingly, penetrance of the ‘cut’ phenotype in mutants of the transcription factor cbf11 and acetyl-coenzyme A carboxylase cut6, both related to lipid metabolism, is highly dependent on growth media, although the specific nutrient(s) affecting ‘cut’ occurrence is not known. In this study, we set out to identify the growth media component(s) responsible for ‘cut’ phenotype suppression in Δcbf11 and cut6–621 cells. We show that mitotic defects occur rapidly in Δcbf11 cells upon shift from the minimal EMM medium (‘cut’ suppressing) to the complex YES medium (‘cut’ promoting). By growing cells in YES medium supplemented with individual EMM components, we identified ammonium chloride, an efficiently utilized nitrogen source, as a specific and potent suppressor of the ‘cut’ phenotype in both Δcbf11 and cut6–621. Furthermore, we found that ammonium chloride boosts lipid droplet formation in wild-type cells. Our findings suggest a possible involvement of nutrient-responsive signaling in ‘cut’ suppression.
Highlights
Faithful progression through cell cycle phases is essential for successful cell reproduction and transmission of genetic information to daughter cells
We have recently shown that Cbf11 regulates several lipid metabolism genes, including the essential cut6 acetyl-coenzyme A carboxylase gene (Prevorovskyet al. 2015, 2016)
We previously showed that cbf11 cells grown as batch cultures in the minimal EMM medium showed improved growth rate and greatly diminished incidence of the ‘cut’ phenotype compared to cbf11 cells grown in the complex YES medium (Prevorovskyet al. 2015, 2016)
Summary
Faithful progression through cell cycle phases is essential for successful cell reproduction and transmission of genetic information to daughter cells. When grown in standard complex medium (YES; yeast extract with supplements), the daughter nuclei have already completed S phase by the time cytokinesis has finished (Sabatinos and Forsburg 2010). Numerous S. pombe mutants have been identified in which septation and/or cytokinesis erroneously take place in the absence of normal sister chromatid separation This often results in the so-called ‘cut’ terminal phenotype of undivided nucleus being intersected by the septum During anaphase in S. pombe, the nuclear envelope undergoes rapid expansion, and it has recently been shown that fatty acid synthesis and phospholipid production are critical for successful separation of daughter nuclei and proper chromosome segregation (Makarova et al 2016; Takemoto et al 2016)
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