Asymmetric Segregation of Damaged Cellular Components in Spatially Structured Multicellular Organisms

Charlotte Strandkvist, Jeppe Søgaard Juul, Kristian Moss Bendtsen

1 Citationer (Scopus)
431 Downloads (Pure)

Abstract

The asymmetric distribution of damaged cellular components has been observed in species ranging from fission yeast to humans. To study the potential advantages of damage segregation, we have developed a mathematical model describing ageing mammalian tissue, that is, a multicellular system of somatic cells that do not rejuvenate at cell division. To illustrate the applicability of the model, we specifically consider damage incurred by mutations to mitochondrial DNA, which are thought to be implicated in the mammalian ageing process. We show analytically that the asymmetric distribution of damaged cellular components reduces the overall damage level and increases the longevity of the cell population. Motivated by the experimental reports of damage segregation in human embryonic stem cells, dividing symmetrically with respect to cell-fate, we extend the model to consider spatially structured systems of cells. Imposing spatial structure reduces, but does not eliminate, the advantage of asymmetric division over symmetric division. The results suggest that damage partitioning could be a common strategy for reducing the accumulation of damage in a wider range of cell types than previously thought.

OriginalsprogEngelsk
Artikelnummere87917
TidsskriftPLoS ONE
Vol/bind9
Udgave nummer2
ISSN1932-6203
DOI
StatusUdgivet - 13 feb. 2014

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