A single-cell hematopoietic landscape resolves 8 lineage trajectories and defects in Kit mutant mice

Hematopoietic stem and progenitor cells (HSPCs) maintain the adult blood system, and their dysregulation causes a multitude of diseases. However, the differentiation journeys toward specific hematopoietic lineages remain ill defined, and system-wide disease interpretation remains challenging. Here,...

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Veröffentlicht in:	Blood 2018-05, Vol.131 (21), p.e1-e11
Hauptverfasser:	Dahlin, Joakim S., Hamey, Fiona K., Pijuan-Sala, Blanca, Shepherd, Mairi, Lau, Winnie W.Y., Nestorowa, Sonia, Weinreb, Caleb, Wolock, Samuel, Hannah, Rebecca, Diamanti, Evangelia, Kent, David G., Göttgens, Berthold, Wilson, Nicola K.
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Sprache:	eng
Schlagworte:	Animals Bone Marrow Cells - cytology Bone Marrow Cells - metabolism Cell Differentiation - genetics Cell Line, Tumor Cell Lineage - genetics Cells, Cultured Gene Expression Profiling Hematopoiesis and Stem Cells Hematopoietic Stem Cells - cytology Hematopoietic Stem Cells - metabolism Mice Mice, Knockout Mutation Proto-Oncogene Proteins c-kit - deficiency Proto-Oncogene Proteins c-kit - metabolism Signal Transduction Single-Cell Analysis Transcriptome
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creator	Dahlin, Joakim S. Hamey, Fiona K. Pijuan-Sala, Blanca Shepherd, Mairi Lau, Winnie W.Y. Nestorowa, Sonia Weinreb, Caleb Wolock, Samuel Hannah, Rebecca Diamanti, Evangelia Kent, David G. Göttgens, Berthold Wilson, Nicola K.
description	Hematopoietic stem and progenitor cells (HSPCs) maintain the adult blood system, and their dysregulation causes a multitude of diseases. However, the differentiation journeys toward specific hematopoietic lineages remain ill defined, and system-wide disease interpretation remains challenging. Here, we have profiled 44 802 mouse bone marrow HSPCs using single-cell RNA sequencing to provide a comprehensive transcriptional landscape with entry points to 8 different blood lineages (lymphoid, megakaryocyte, erythroid, neutrophil, monocyte, eosinophil, mast cell, and basophil progenitors). We identified a common basophil/mast cell bone marrow progenitor and characterized its molecular profile at the single-cell level. Transcriptional profiling of 13 815 HSPCs from the c-Kit mutant (W41/W41) mouse model revealed the absence of a distinct mast cell lineage entry point, together with global shifts in cell type abundance. Proliferative defects were accompanied by reduced Myc expression. Potential compensatory processes included upregulation of the integrated stress response pathway and downregulation of proapoptotic gene expression in erythroid progenitors, thus providing a template of how large-scale single-cell transcriptomic studies can bridge between molecular phenotypes and quantitative population changes. •Single-cell transcriptional landscape of 44 802 hematopoietic stem/progenitor cells defines entry points to 8 different blood lineages.•Comparison with 13 815 c-Kit mutant cells identifies pleiotropic changes in cell type abundance and underlying molecular profiles. [Display omitted]
doi_str_mv	10.1182/blood-2017-12-821413
format	Article
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However, the differentiation journeys toward specific hematopoietic lineages remain ill defined, and system-wide disease interpretation remains challenging. Here, we have profiled 44 802 mouse bone marrow HSPCs using single-cell RNA sequencing to provide a comprehensive transcriptional landscape with entry points to 8 different blood lineages (lymphoid, megakaryocyte, erythroid, neutrophil, monocyte, eosinophil, mast cell, and basophil progenitors). We identified a common basophil/mast cell bone marrow progenitor and characterized its molecular profile at the single-cell level. Transcriptional profiling of 13 815 HSPCs from the c-Kit mutant (W41/W41) mouse model revealed the absence of a distinct mast cell lineage entry point, together with global shifts in cell type abundance. Proliferative defects were accompanied by reduced Myc expression. Potential compensatory processes included upregulation of the integrated stress response pathway and downregulation of proapoptotic gene expression in erythroid progenitors, thus providing a template of how large-scale single-cell transcriptomic studies can bridge between molecular phenotypes and quantitative population changes. •Single-cell transcriptional landscape of 44 802 hematopoietic stem/progenitor cells defines entry points to 8 different blood lineages.•Comparison with 13 815 c-Kit mutant cells identifies pleiotropic changes in cell type abundance and underlying molecular profiles. 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However, the differentiation journeys toward specific hematopoietic lineages remain ill defined, and system-wide disease interpretation remains challenging. Here, we have profiled 44 802 mouse bone marrow HSPCs using single-cell RNA sequencing to provide a comprehensive transcriptional landscape with entry points to 8 different blood lineages (lymphoid, megakaryocyte, erythroid, neutrophil, monocyte, eosinophil, mast cell, and basophil progenitors). We identified a common basophil/mast cell bone marrow progenitor and characterized its molecular profile at the single-cell level. Transcriptional profiling of 13 815 HSPCs from the c-Kit mutant (W41/W41) mouse model revealed the absence of a distinct mast cell lineage entry point, together with global shifts in cell type abundance. Proliferative defects were accompanied by reduced Myc expression. Potential compensatory processes included upregulation of the integrated stress response pathway and downregulation of proapoptotic gene expression in erythroid progenitors, thus providing a template of how large-scale single-cell transcriptomic studies can bridge between molecular phenotypes and quantitative population changes. •Single-cell transcriptional landscape of 44 802 hematopoietic stem/progenitor cells defines entry points to 8 different blood lineages.•Comparison with 13 815 c-Kit mutant cells identifies pleiotropic changes in cell type abundance and underlying molecular profiles. 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However, the differentiation journeys toward specific hematopoietic lineages remain ill defined, and system-wide disease interpretation remains challenging. Here, we have profiled 44 802 mouse bone marrow HSPCs using single-cell RNA sequencing to provide a comprehensive transcriptional landscape with entry points to 8 different blood lineages (lymphoid, megakaryocyte, erythroid, neutrophil, monocyte, eosinophil, mast cell, and basophil progenitors). We identified a common basophil/mast cell bone marrow progenitor and characterized its molecular profile at the single-cell level. Transcriptional profiling of 13 815 HSPCs from the c-Kit mutant (W41/W41) mouse model revealed the absence of a distinct mast cell lineage entry point, together with global shifts in cell type abundance. Proliferative defects were accompanied by reduced Myc expression. 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subjects	Animals Bone Marrow Cells - cytology Bone Marrow Cells - metabolism Cell Differentiation - genetics Cell Line, Tumor Cell Lineage - genetics Cells, Cultured Gene Expression Profiling Hematopoiesis and Stem Cells Hematopoietic Stem Cells - cytology Hematopoietic Stem Cells - metabolism Mice Mice, Knockout Mutation Proto-Oncogene Proteins c-kit - deficiency Proto-Oncogene Proteins c-kit - metabolism Signal Transduction Single-Cell Analysis Transcriptome
title	A single-cell hematopoietic landscape resolves 8 lineage trajectories and defects in Kit mutant mice
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