Royal Society Open Science (Jul 2024)

Approximate Bayesian computation for inferring Waddington landscapes from single-cell data

  • Yujing Liu,
  • Stephen Y. Zhang,
  • Istvan T. Kleijn,
  • Michael P. H. Stumpf

DOI
https://doi.org/10.1098/rsos.231697
Journal volume & issue
Vol. 11, no. 7

Abstract

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Single-cell technologies allow us to gain insights into cellular processes at unprecedented resolution. In stem cell and developmental biology snapshot data allow us to characterize how the transcriptional states of cells change between successive cell types. Here, we show how approximate Bayesian computation (ABC) can be employed to calibrate mathematical models against single-cell data. In our simulation study, we demonstrate the pivotal role of the adequate choice of distance measures appropriate for single-cell data. We show that for good distance measures, notably optimal transport with the Sinkhorn divergence, we can infer parameters for mathematical models from simulated single-cell data. We show that the ABC posteriors can be used (i) to characterize parameter sensitivity and identify dependencies between different parameters and (ii) to construct representations of the Waddington or epigenetic landscape, which forms a popular and interpretable representation of the developmental dynamics. In summary, these results pave the way for fitting mechanistic models of stem cell differentiation to single-cell data.

Keywords