Litcius/Paper detail

A single-cell resolved cell-cell communication model explains lineage commitment in hematopoiesis

Megan K. Rommelfanger, Adam L. MacLean

2021Development18 citationsDOIOpen Access PDF

Abstract

Cells do not make fate decisions independently. Arguably, every cell-fate decision occurs in response to environmental signals. In many cases, cell-cell communication alters the dynamics of the internal gene regulatory network of a cell to initiate cell-fate transitions, yet models rarely take this into account. Here, we have developed a multiscale perspective to study the granulocyte-monocyte versus megakaryocyte-erythrocyte fate decisions. This transition is dictated by the GATA1-PU.1 network: a classical example of a bistable cell-fate system. We show that, for a wide range of cell communication topologies, even subtle changes in signaling can have pronounced effects on cell-fate decisions. We go on to show how cell-cell coupling through signaling can spontaneously break the symmetry of a homogenous cell population. Noise, both intrinsic and extrinsic, shapes the decision landscape profoundly, and affects the transcriptional dynamics underlying this important hematopoietic cell-fate decision-making system. This article has an associated 'The people behind the papers' interview.

Topics & Concepts

Cell fate determinationBiologyCellCell biologyGene regulatory networkHaematopoiesisCell typeCell signalingSignal transductionTranscription factorGeneticsStem cellGeneGene expressionSingle-cell and spatial transcriptomicsGene Regulatory Network AnalysisT-cell and B-cell Immunology