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Transcriptome-wide noise controls lineage choice in mammalian progenitor cells
Hannah H. Chang1,2,3, Martin Hemberg4,6, Mauricio Barahona4, Donald E. Ingber1,5 & Sui Huang1,6
Vascular Biology Programme, Department of Pathology and Surgery, Children's Hospital and Harvard Medical School, Boston, Massachusetts 02115, USA
Programme in Biophysics,
MD-PhD Programme, Harvard Medical School, Boston, Massachusetts 02115, USA
Department of Bioengineering and Institute for Mathematical Sciences, Imperial College London, South Kensington Campus, London SW7 2AZ, UK
Harvard Institute for Biologically Inspired Engineering, Cambridge, Massachusetts 02139, USA
Present addresses: Department of Ophthalmology, Children's Hospital Boston, Boston, Massachusetts 02215, USA (M.H.); Institute for Biocomplexity and Informatics, University of Calgary, Calgary, Alberta T2N 1N4, Canada (S.H.).
Correspondence to: Sui Huang1,6 Correspondence and requests for materials should be addressed to S.H. ().
Phenotypic cell-to-cell variability within clonal populations may be a manifestation of 'gene expression noise'1, 2, 3, 4, 5, 6, or it may reflect stable phenotypic variants7. Such 'non-genetic cell individuality'7 can arise from the slow fluctuations of protein levels8 in mammalian cells. These fluctuations produce persistent cell individuality, thereby rendering a clonal population heterogeneous. However, it remains unknown whether this heterogeneity may account for the stochasticity of cell fate decisions in stem cells. Here we show that in clonal populations of mouse haematopoietic progenitor cells, spontaneous 'outlier' cells with either extremely high or low expression levels of the stem cell marker Sca-1 (also known as Ly6a; ref. 9) reconstitute the parental distribution of Sca-1 but do so only after more than one week. This slow relaxation is described by a gaussian mixture model that incorporates noise-driven transitions between discrete subpopulations, suggesting hidden multi-stability within one cell type. Despite clonality, the Sca-1 outliers had distinct transcriptomes. Although their unique gene expression profiles eventually reverted to that of the median cells, revealing an attractor state, they lasted long enough to confer a greatly different proclivity for choosing either the erythroid or the myeloid lineage. Preference in lineage choice was associated with increased expression of lineage-specific transcription factors, such as a >200-fold increase in Gata1 (ref. 10) among the erythroid-prone cells, or a >15-fold increased PU.1 (Sfpi1) (ref. 11) expression among myeloid-prone cells. Thus, clonal heterogeneity of gene expression level is not due to independent noise in the expression of individual genes, but reflects metastable states of a slowly fluctuating transcriptome that is distinct in individual cells and may govern the reversible, stochastic priming of multipotent progenitor cells in cell fate decision.
