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Researchers identify a potential new culprit behind the signs of ageing by studying yeast

Researchers identify a potential new culprit behind the signs of ageing by studying yeast

Researchers identify a potential new culprit behind the signs of ageing by studying yeast

Key points:

  • Researchers have discovered one of the mediators of ageing in yeast that could give insights into ageing in all animals.
  • Their results overturn the current theory of what causes yeast to age and suggests that damaged chromosomes impair normal yeast cell division.
  • By investigating the molecular mechanisms that cause yeast to age, the team hope to understand if there are common roots of ageing for cells in all eukaryotes.

Researchers from the Houseley lab have challenged the existing theory of what causes ageing yeast cells to enter a senescent state where they lose fitness and show many signs of pathology. Instead of blaming the long-recognised accumulation of circular DNA within cells, they suggest that formation of chromosome fragments cause cells to malfunction. Given the common machinery and functions shared between yeast cells and cells of humans, it is possible that their results could identify a common cause for ageing on the molecular level.

鈥淒NA circles as the cause of ageing in yeast was a nice theory, but the mechanism isn't shared across species. By contrast, the aberrant DNA fragments we have identified might cause pathology in ways which are more similar between yeast and mammals.鈥 said Dr Andre Zylstra, lead author on the paper.

For over twenty years researchers have suspected that yeast cell lifespan is limited by the accumulation of huge amounts of seemingly useless circular DNA. This DNA was thought to slowly overwhelm cellular systems leading to cause senescence. However, circular DNA does not accumulate with age in other organisms. While investigating the presence of different types of DNA in yeast, the Houseley lab were able to identify new culprits for causing the pathologies of ageing.

鈥淲e were surprised to find that senescence, when cells no longer divide, occurs even in yeast mutants which lack circular DNA. This indicates that circular DNAs do not cause senescence, so we then turned our eye to other genome changes that accompany ageing in yeast.鈥 Explained Dr Jon Houseley, Group leader in the Epigenetics research programme.

The team examined aged mutant cells that don鈥檛 accumulate circular DNA during ageing to find an alternative explanation for the onset of senescence. They identified a chromosomal fragment formed by breakage of yeast chromosome XII that was always present when cells underwent ageing pathology but was absent in healthy ageing cells. Although much less abundant that the circular DNA, this chromosomal fragment appears to be much more toxic.

Whereas accumulation of circular DNA does not occur during ageing outside yeast, there is plenty of evidence for the gain or loss of whole or partial chromosomes, called aneuploidy, as we age. The importance of this aneuploidy is not understood, but our yeast findings suggest it could be a major contributor to the ageing process in humans.

Notes to Editors

Publication reference

Zylstra, A., et al., Senescence in yeast is associated with amplified linear fragments of chromosome XII rather than ribosomal DNA circle accumulation, PLOS Biology

Press contact

Honor Pollard, Communications Officer, honor.pollard@babraham.ac.uk

Image description: Computer generated depiction of budding yeast.

Institute affiliated authors (in author order):

Andre Zylstra, former PhD student, Houseley lab

Hanane Hadj-Moussa, Postdoctoral research scientist, Houseley lab

Dorottya Horkai, former postdoctoral research scientist, Houseley lab

Alex Whale, Postdoctoral research scientist, Houseley lab

Baptiste Piguet, Visiting student, Samant lab

Jonathan Houseley, Group leader, Epigenetics research programme

Research funding

This research was funded by the Wellcome Trust and the Biotechnology and Biological Sciences Research Council (BBSRC), part of UKRI.

About the 海角社区论坛

The 海角社区论坛 undertakes world-class life sciences research to generate new knowledge of biological mechanisms underpinning ageing, development and the maintenance of health. 海角社区论坛 focuses on cellular signalling, gene regulation and the impact of epigenetic regulation at different stages of life. By determining how the body reacts to dietary and environmental stimuli and manages microbial and viral interactions, we aim to improve wellbeing and support healthier ageing. The Institute is strategically funded by the Biotechnology and Biological Sciences Research Council (BBSRC), part of UK Research and Innovation, through Institute Strategic Programme Grants and an Institute Core Capability Grant and also receives funding from other UK research councils, charitable foundations, the EU and medical charities.

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