Single-cell proteo-genomic reference maps of the hematopoietic system enable the purification and massive profiling of precisely defined cell states

Sergio Triana; Dominik Vonficht; Lea Jopp-Saile; Simon Raffel; Raphael Lutz; Daniel Leonce; Magdalena Antes; Pablo Hernández-Malmierca; Diana Ordoñez-Rueda; Beáta Ramasz; Tobias Boch; Johann Christoph Jann; Daniel Nowak; Wolf Karsten Hofmann; Carsten Müller-Tidow; Daniel Hübschmann; Theodore Alexandrov; Vladimir Benes; Andreas Trumpp; Malte Paulsen; Lars Velten; Simon Haas

doi:10.1038/s41590-021-01059-0

Single-cell proteo-genomic reference maps of the hematopoietic system enable the purification and massive profiling of precisely defined cell states

Sergio Triana, Dominik Vonficht, Lea Jopp-Saile, Simon Raffel, Raphael Lutz, Daniel Leonce, Magdalena Antes, Pablo Hernández-Malmierca, Diana Ordoñez-Rueda, Beáta Ramasz, Tobias Boch, Johann Christoph Jann, Daniel Nowak, Wolf Karsten Hofmann, Carsten Müller-Tidow, Daniel Hübschmann, Theodore Alexandrov, Vladimir Benes, Andreas Trumpp, Malte PaulsenLars Velten^*, Simon Haas

^*Corresponding author for this work

The Danish Stem Cell Center

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Single-cell genomics technology has transformed our understanding of complex cellular systems. However, excessive cost and a lack of strategies for the purification of newly identified cell types impede their functional characterization and large-scale profiling. Here, we have generated high-content single-cell proteo-genomic reference maps of human blood and bone marrow that quantitatively link the expression of up to 197 surface markers to cellular identities and biological processes across all main hematopoietic cell types in healthy aging and leukemia. These reference maps enable the automatic design of cost-effective high-throughput cytometry schemes that outperform state-of-the-art approaches, accurately reflect complex topologies of cellular systems and permit the purification of precisely defined cell states. The systematic integration of cytometry and proteo-genomic data enables the functional capacities of precisely mapped cell states to be measured at the single-cell level. Our study serves as an accessible resource and paves the way for a data-driven era in cytometry.

Original language	English
Journal	Nature Immunology
Volume	22
Issue number	12
Pages (from-to)	1577-1615
Number of pages	39
ISSN	1529-2908
DOIs	https://doi.org/10.1038/s41590-021-01059-0
Publication status	Published - 2021

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Publisher Copyright:
© 2021, The Author(s).

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Cite this

Triana, S., Vonficht, D., Jopp-Saile, L., Raffel, S., Lutz, R., Leonce, D., Antes, M., Hernández-Malmierca, P., Ordoñez-Rueda, D., Ramasz, B., Boch, T., Jann, J. C., Nowak, D., Hofmann, W. K., Müller-Tidow, C., Hübschmann, D., Alexandrov, T., Benes, V., Trumpp, A., ... Haas, S. (2021). Single-cell proteo-genomic reference maps of the hematopoietic system enable the purification and massive profiling of precisely defined cell states. Nature Immunology, 22(12), 1577-1615. https://doi.org/10.1038/s41590-021-01059-0

Triana, S, Vonficht, D, Jopp-Saile, L, Raffel, S, Lutz, R, Leonce, D, Antes, M, Hernández-Malmierca, P, Ordoñez-Rueda, D, Ramasz, B, Boch, T, Jann, JC, Nowak, D, Hofmann, WK, Müller-Tidow, C, Hübschmann, D, Alexandrov, T, Benes, V, Trumpp, A, Paulsen, M, Velten, L & Haas, S 2021, 'Single-cell proteo-genomic reference maps of the hematopoietic system enable the purification and massive profiling of precisely defined cell states', Nature Immunology, vol. 22, no. 12, pp. 1577-1615. https://doi.org/10.1038/s41590-021-01059-0

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abstract = "Single-cell genomics technology has transformed our understanding of complex cellular systems. However, excessive cost and a lack of strategies for the purification of newly identified cell types impede their functional characterization and large-scale profiling. Here, we have generated high-content single-cell proteo-genomic reference maps of human blood and bone marrow that quantitatively link the expression of up to 197 surface markers to cellular identities and biological processes across all main hematopoietic cell types in healthy aging and leukemia. These reference maps enable the automatic design of cost-effective high-throughput cytometry schemes that outperform state-of-the-art approaches, accurately reflect complex topologies of cellular systems and permit the purification of precisely defined cell states. The systematic integration of cytometry and proteo-genomic data enables the functional capacities of precisely mapped cell states to be measured at the single-cell level. Our study serves as an accessible resource and paves the way for a data-driven era in cytometry.",

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AU - Triana, Sergio

AU - Vonficht, Dominik

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AU - Raffel, Simon

AU - Lutz, Raphael

AU - Leonce, Daniel

AU - Antes, Magdalena

AU - Hernández-Malmierca, Pablo

AU - Ordoñez-Rueda, Diana

AU - Ramasz, Beáta

AU - Boch, Tobias

AU - Jann, Johann Christoph

AU - Nowak, Daniel

AU - Hofmann, Wolf Karsten

AU - Müller-Tidow, Carsten

AU - Hübschmann, Daniel

AU - Alexandrov, Theodore

AU - Benes, Vladimir

AU - Trumpp, Andreas

AU - Paulsen, Malte

AU - Velten, Lars

AU - Haas, Simon

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AB - Single-cell genomics technology has transformed our understanding of complex cellular systems. However, excessive cost and a lack of strategies for the purification of newly identified cell types impede their functional characterization and large-scale profiling. Here, we have generated high-content single-cell proteo-genomic reference maps of human blood and bone marrow that quantitatively link the expression of up to 197 surface markers to cellular identities and biological processes across all main hematopoietic cell types in healthy aging and leukemia. These reference maps enable the automatic design of cost-effective high-throughput cytometry schemes that outperform state-of-the-art approaches, accurately reflect complex topologies of cellular systems and permit the purification of precisely defined cell states. The systematic integration of cytometry and proteo-genomic data enables the functional capacities of precisely mapped cell states to be measured at the single-cell level. Our study serves as an accessible resource and paves the way for a data-driven era in cytometry.

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