A role for the fusogen eff-1 in epidermal stem cell number robustness in Caenorhabditis elegans

Developmental patterning in Caenorhabditis elegans is known to proceed in a highly stereotypical manner, which raises the question of how developmental robustness is achieved despite the inevitable stochastic noise. We focus here on a population of epidermal cells, the seam cells, which show stem cell-like behaviour and divide symmetrically and asymmetrically over post-embryonic development to generate epidermal and neuronal tissues. We have conducted a mutagenesis screen to identify mutants that introduce phenotypic variability in the normally invariant seam cell population. We report here that a null mutation in the fusogen eff-1 increases seam cell number variability. Using time-lapse microscopy and single molecule fluorescence hybridisation, we find that seam cell division and differentiation patterns are mostly unperturbed in eff-1 mutants, indicating that cell fusion is uncoupled from the cell differentiation programme. Nevertheless, seam cell losses due to the inappropriate differentiation of both daughter cells following division, as well as seam cell gains through symmetric divisions towards the seam cell fate were observed at low frequency. We show that these stochastic errors likely arise through accumulation of defects interrupting the continuity of the seam and changing seam cell shape, highlighting the role of tissue homeostasis in suppressing phenotypic variability during development.

Automated summary

Research in Caenorhabditis elegans has shown that certain mutants, such as those with a null mutation in the fusogen eff-1, can introduce variability in the population of epidermal cells, particularly through uncoupling of cell fusion from the cell differentiation program. Despite mostly normal patterns, stochastic errors in seam cell division and differentiation can lead to changes in tissue structure, highlighting the importance of tissue homeostasis in suppressing phenotypic variability during development.