摘要:SummaryClassically, hematopoietic stem cell (HSC) differentiation is assumed to occur via progenitor compartments of decreasing plasticity and increasing maturity in a specific, hierarchical manner. The classical hierarchy has been challenged in the past by alternative differentiation pathways. We abstracted experimental evidence into 10 differentiation hierarchies, each comprising 7 cell type compartments. By fitting ordinary differential equation models with realistic waiting time distributions to time-resolved data of differentiating HSCs from 10 healthy human donors, we identified plausible lineage hierarchies and rejected others. We found that, for most donors, the classical model of hematopoiesis is preferred. Surprisingly, multipotent lymphoid progenitor differentiation into granulocyte-monocyte progenitors is plausible in 90% of samples. Anin silicoanalysis confirmed that, even for strong noise, the classical model can be identified robustly. Our computational approach infers differentiation hierarchies in a personalized fashion and can be used to gain insights into kinetic alterations of diseased hematopoiesis.Graphical abstractDisplay OmittedHighlights•We assembled 10 lineage hierarchy models of human hematopoiesis•Multiparameter immunophenotyping determines HSC differentiation for 10 healthy donors•ODE fitting and model selection allows to identify plausible hierarchies•A simulation study confirms robustness of model selection for different noise levelsstem cells research; in silico biology; systems biology
