Nature Communications (Aug 2024)

scEpiAge: an age predictor highlighting single-cell ageing heterogeneity in mouse blood

  • Marc Jan Bonder,
  • Stephen J. Clark,
  • Felix Krueger,
  • Siyuan Luo,
  • João Agostinho de Sousa,
  • Aida M. Hashtroud,
  • Thomas M. Stubbs,
  • Anne-Katrien Stark,
  • Steffen Rulands,
  • Oliver Stegle,
  • Wolf Reik,
  • Ferdinand von Meyenn

DOI
https://doi.org/10.1038/s41467-024-51833-5
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract Ageing is the accumulation of changes and decline of function of organisms over time. The concept and biomarkers of biological age have been established, notably DNA methylation-based clocks. The emergence of single-cell DNA methylation profiling methods opens the possibility of studying the biological age of individual cells. Here, we generate a large single-cell DNA methylation and transcriptome dataset from mouse peripheral blood samples, spanning a broad range of ages. The number of genes expressed increases with age, but gene-specific changes are small. We next develop scEpiAge, a single-cell DNA methylation age predictor, which can accurately predict age in (very sparse) publicly available datasets, and also in single cells. DNA methylation age distribution is wider than technically expected, indicating epigenetic age heterogeneity and functional differences. Our work provides a foundation for single-cell and sparse data epigenetic age predictors, validates their functionality and highlights epigenetic heterogeneity during ageing.