Runx1+ vascular smooth muscle cells are essential for hematopoietic stem and progenitor cell development in vivo

Zaniah N. Gonzalez Galofre; Alastair M. Kilpatrick; Madalena Marques; Diana Sá da Bandeira; Telma Ventura; Mario Gomez Salazar; Léa Bouilleau; Yvan Marc; Ana B. Barbosa; Fiona Rossi; Mariana Beltran; Harmen J. G. van de Werken; Wilfred F. J. van IJcken; Neil C. Henderson; Stuart J. Forbes; Mihaela Crisan

doi:10.1038/s41467-024-44913-z

Nature Communications (Feb 2024)

Runx1+ vascular smooth muscle cells are essential for hematopoietic stem and progenitor cell development in vivo

Zaniah N. Gonzalez Galofre,
Alastair M. Kilpatrick,
Madalena Marques,
Diana Sá da Bandeira,
Telma Ventura,
Mario Gomez Salazar,
Léa Bouilleau,
Yvan Marc,
Ana B. Barbosa,
Fiona Rossi,
Mariana Beltran,
Harmen J. G. van de Werken,
Wilfred F. J. van IJcken,
Neil C. Henderson,
Stuart J. Forbes,
Mihaela Crisan

Affiliations

Zaniah N. Gonzalez Galofre: Centre for Cardiovascular Science, The University of Edinburgh
Alastair M. Kilpatrick: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Madalena Marques: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Diana Sá da Bandeira: Centre for Cardiovascular Science, The University of Edinburgh
Telma Ventura: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Mario Gomez Salazar: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Léa Bouilleau: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Yvan Marc: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Ana B. Barbosa: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Fiona Rossi: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Mariana Beltran: Centre for Inflammation Research/Institute for Regeneration and Repair, The University of Edinburgh
Harmen J. G. van de Werken: Cancer Computational Biology Center, Erasmus MC Cancer Institute, University Medical Center
Wilfred F. J. van IJcken: Center for Biomics, Department of Cell Biology, Erasmus MC University Medical Centre
Neil C. Henderson: Centre for Inflammation Research/Institute for Regeneration and Repair, The University of Edinburgh
Stuart J. Forbes: Centre for Regenerative Medicine/Institute for Regeneration and Repair, The University of Edinburgh
Mihaela Crisan: Centre for Cardiovascular Science, The University of Edinburgh

DOI: https://doi.org/10.1038/s41467-024-44913-z
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 17

Abstract

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Abstract Hematopoietic stem cells (HSCs) produce all essential cellular components of the blood. Stromal cell lines supporting HSCs follow a vascular smooth muscle cell (vSMC) differentiation pathway, suggesting that some hematopoiesis-supporting cells originate from vSMC precursors. These pericyte-like precursors were recently identified in the aorta-gonad-mesonephros (AGM) region; however, their role in the hematopoietic development in vivo remains unknown. Here, we identify a subpopulation of NG2+Runx1+ perivascular cells that display a sclerotome-derived vSMC transcriptomic profile. We show that deleting Runx1 in NG2+ cells impairs the hematopoietic development in vivo and causes transcriptional changes in pericytes/vSMCs, endothelial cells and hematopoietic cells in the murine AGM. Importantly, this deletion leads also to a significant reduction of HSC reconstitution potential in the bone marrow in vivo. This defect is developmental, as NG2+Runx1+ cells were not detected in the adult bone marrow, demonstrating the existence of a specialised pericyte population in the HSC-generating niche, unique to the embryo.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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