Bone marrow endothelial dysfunction promotes myeloid cell expansion in cardiovascular disease

David Rohde; Katrien Vandoorne; I-Hsiu Lee; Jana Grune; Shuang Zhang; Cameron S McAlpine; Maximilian J Schloss; Ribhu Nayar; Gabriel Courties; Vanessa Frodermann; Gregory Wojtkiewicz; Lisa Honold; Qi Chen; Stephen Schmidt; Yoshiko Iwamoto; Yuan Sun; Sebastian Cremer; Friedrich F Hoyer; Oriol Iborra-Egea; Christian Muñoz-Guijosa; Fei Ji; Bin Zhou; Ralf H Adams; Joshua D Wythe; Juan Hidalgo; Hideto Watanabe; Yookyung Jung; Anja M van der Laan; Jan J Piek; Youmna Kfoury; Pauline A Désogère; Claudio Vinegoni; Partha Dutta; Ruslan I Sadreyev; Peter Caravan; Antoni Bayes-Genis; Peter Libby; David T Scadden; Charles P Lin; Kamila Naxerova; Filip K Swirski; Matthias Nahrendorf

doi:https://doi.org/10.1038/s44161-021-00002-8

Bone marrow endothelial dysfunction promotes myeloid cell expansion in cardiovascular disease

David Rohde, Katrien Vandoorne, I-Hsiu Lee, Jana Grune, Shuang Zhang, Cameron S McAlpine, Maximilian J Schloss, Ribhu Nayar, Gabriel Courties, Vanessa Frodermann, Gregory Wojtkiewicz, Lisa Honold, Qi Chen, Stephen Schmidt, Yoshiko Iwamoto, Yuan Sun, Sebastian Cremer, Friedrich F Hoyer, Oriol Iborra-Egea, Christian Muñoz-GuijosaFei Ji, Bin Zhou, Ralf H Adams, Joshua D Wythe, Juan Hidalgo, Hideto Watanabe, Yookyung Jung, Anja M van der Laan, Jan J Piek, Youmna Kfoury, Pauline A Désogère, Claudio Vinegoni, Partha Dutta, Ruslan I Sadreyev, Peter Caravan, Antoni Bayes-Genis, Peter Libby, David T Scadden, Charles P Lin, Kamila Naxerova, Filip K Swirski, Matthias Nahrendorf

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Abnormal hematopoiesis advances cardiovascular disease by generating excess inflammatory leukocytes that attack the arteries and the heart. The bone marrow niche regulates hematopoietic stem cell proliferation and hence the systemic leukocyte pool, but whether cardiovascular disease affects the hematopoietic organ's microvasculature is unknown. Here we show that hypertension, atherosclerosis and myocardial infarction (MI) instigate endothelial dysfunction, leakage, vascular fibrosis and angiogenesis in the bone marrow, altogether leading to overproduction of inflammatory myeloid cells and systemic leukocytosis. Limiting angiogenesis with endothelial deletion of Vegfr2 (encoding vascular endothelial growth factor (VEGF) receptor 2) curbed emergency hematopoiesis after MI. We noted that bone marrow endothelial cells assumed inflammatory transcriptional phenotypes in all examined stages of cardiovascular disease. Endothelial deletion of Il6 or Vcan (encoding versican), genes shown to be highly expressed in mice with atherosclerosis or MI, reduced hematopoiesis and systemic myeloid cell numbers in these conditions. Our findings establish that cardiovascular disease remodels the vascular bone marrow niche, stimulating hematopoiesis and production of inflammatory leukocytes.

Original language	English
Pages (from-to)	28-44
Number of pages	17
Journal	Nature cardiovascular research
Volume	1
Issue number	1
DOIs	https://doi.org/10.1038/s44161-021-00002-8
Publication status	Published - Jan 2022

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https://doi.org/10.1038/s44161-021-00002-8

Cite this

Rohde, D., Vandoorne, K., Lee, I.-H., Grune, J., Zhang, S., McAlpine, C. S., Schloss, M. J., Nayar, R., Courties, G., Frodermann, V., Wojtkiewicz, G., Honold, L., Chen, Q., Schmidt, S., Iwamoto, Y., Sun, Y., Cremer, S., Hoyer, F. F., Iborra-Egea, O., ... Nahrendorf, M. (2022). Bone marrow endothelial dysfunction promotes myeloid cell expansion in cardiovascular disease. Nature cardiovascular research, 1(1), 28-44. https://doi.org/10.1038/s44161-021-00002-8

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title = "Bone marrow endothelial dysfunction promotes myeloid cell expansion in cardiovascular disease",

abstract = "Abnormal hematopoiesis advances cardiovascular disease by generating excess inflammatory leukocytes that attack the arteries and the heart. The bone marrow niche regulates hematopoietic stem cell proliferation and hence the systemic leukocyte pool, but whether cardiovascular disease affects the hematopoietic organ's microvasculature is unknown. Here we show that hypertension, atherosclerosis and myocardial infarction (MI) instigate endothelial dysfunction, leakage, vascular fibrosis and angiogenesis in the bone marrow, altogether leading to overproduction of inflammatory myeloid cells and systemic leukocytosis. Limiting angiogenesis with endothelial deletion of Vegfr2 (encoding vascular endothelial growth factor (VEGF) receptor 2) curbed emergency hematopoiesis after MI. We noted that bone marrow endothelial cells assumed inflammatory transcriptional phenotypes in all examined stages of cardiovascular disease. Endothelial deletion of Il6 or Vcan (encoding versican), genes shown to be highly expressed in mice with atherosclerosis or MI, reduced hematopoiesis and systemic myeloid cell numbers in these conditions. Our findings establish that cardiovascular disease remodels the vascular bone marrow niche, stimulating hematopoiesis and production of inflammatory leukocytes.",

author = "David Rohde and Katrien Vandoorne and I-Hsiu Lee and Jana Grune and Shuang Zhang and McAlpine, {Cameron S} and Schloss, {Maximilian J} and Ribhu Nayar and Gabriel Courties and Vanessa Frodermann and Gregory Wojtkiewicz and Lisa Honold and Qi Chen and Stephen Schmidt and Yoshiko Iwamoto and Yuan Sun and Sebastian Cremer and Hoyer, {Friedrich F} and Oriol Iborra-Egea and Christian Mu{\~n}oz-Guijosa and Fei Ji and Bin Zhou and Adams, {Ralf H} and Wythe, {Joshua D} and Juan Hidalgo and Hideto Watanabe and Yookyung Jung and {van der Laan}, {Anja M} and Piek, {Jan J} and Youmna Kfoury and D{\'e}sog{\`e}re, {Pauline A} and Claudio Vinegoni and Partha Dutta and Sadreyev, {Ruslan I} and Peter Caravan and Antoni Bayes-Genis and Peter Libby and Scadden, {David T} and Lin, {Charles P} and Kamila Naxerova and Swirski, {Filip K} and Matthias Nahrendorf",

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Rohde, D, Vandoorne, K, Lee, I-H, Grune, J, Zhang, S, McAlpine, CS, Schloss, MJ, Nayar, R, Courties, G, Frodermann, V, Wojtkiewicz, G, Honold, L, Chen, Q, Schmidt, S, Iwamoto, Y, Sun, Y, Cremer, S, Hoyer, FF, Iborra-Egea, O, Muñoz-Guijosa, C, Ji, F, Zhou, B, Adams, RH, Wythe, JD, Hidalgo, J, Watanabe, H, Jung, Y, van der Laan, AM , Piek, JJ, Kfoury, Y, Désogère, PA, Vinegoni, C, Dutta, P, Sadreyev, RI, Caravan, P, Bayes-Genis, A, Libby, P, Scadden, DT, Lin, CP, Naxerova, K, Swirski, FK & Nahrendorf, M 2022, 'Bone marrow endothelial dysfunction promotes myeloid cell expansion in cardiovascular disease', Nature cardiovascular research, vol. 1, no. 1, pp. 28-44. https://doi.org/10.1038/s44161-021-00002-8

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AU - Rohde, David

AU - Vandoorne, Katrien

AU - Lee, I-Hsiu

AU - Grune, Jana

AU - Zhang, Shuang

AU - McAlpine, Cameron S

AU - Schloss, Maximilian J

AU - Nayar, Ribhu

AU - Courties, Gabriel

AU - Frodermann, Vanessa

AU - Wojtkiewicz, Gregory

AU - Honold, Lisa

AU - Chen, Qi

AU - Schmidt, Stephen

AU - Iwamoto, Yoshiko

AU - Sun, Yuan

AU - Cremer, Sebastian

AU - Hoyer, Friedrich F

AU - Iborra-Egea, Oriol

AU - Muñoz-Guijosa, Christian

AU - Ji, Fei

AU - Zhou, Bin

AU - Adams, Ralf H

AU - Wythe, Joshua D

AU - Hidalgo, Juan

AU - Watanabe, Hideto

AU - Jung, Yookyung

AU - van der Laan, Anja M

AU - Piek, Jan J

AU - Kfoury, Youmna

AU - Désogère, Pauline A

AU - Vinegoni, Claudio

AU - Dutta, Partha

AU - Sadreyev, Ruslan I

AU - Caravan, Peter

AU - Bayes-Genis, Antoni

AU - Libby, Peter

AU - Scadden, David T

AU - Lin, Charles P

AU - Naxerova, Kamila

AU - Swirski, Filip K

AU - Nahrendorf, Matthias

PY - 2022/1

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N2 - Abnormal hematopoiesis advances cardiovascular disease by generating excess inflammatory leukocytes that attack the arteries and the heart. The bone marrow niche regulates hematopoietic stem cell proliferation and hence the systemic leukocyte pool, but whether cardiovascular disease affects the hematopoietic organ's microvasculature is unknown. Here we show that hypertension, atherosclerosis and myocardial infarction (MI) instigate endothelial dysfunction, leakage, vascular fibrosis and angiogenesis in the bone marrow, altogether leading to overproduction of inflammatory myeloid cells and systemic leukocytosis. Limiting angiogenesis with endothelial deletion of Vegfr2 (encoding vascular endothelial growth factor (VEGF) receptor 2) curbed emergency hematopoiesis after MI. We noted that bone marrow endothelial cells assumed inflammatory transcriptional phenotypes in all examined stages of cardiovascular disease. Endothelial deletion of Il6 or Vcan (encoding versican), genes shown to be highly expressed in mice with atherosclerosis or MI, reduced hematopoiesis and systemic myeloid cell numbers in these conditions. Our findings establish that cardiovascular disease remodels the vascular bone marrow niche, stimulating hematopoiesis and production of inflammatory leukocytes.

AB - Abnormal hematopoiesis advances cardiovascular disease by generating excess inflammatory leukocytes that attack the arteries and the heart. The bone marrow niche regulates hematopoietic stem cell proliferation and hence the systemic leukocyte pool, but whether cardiovascular disease affects the hematopoietic organ's microvasculature is unknown. Here we show that hypertension, atherosclerosis and myocardial infarction (MI) instigate endothelial dysfunction, leakage, vascular fibrosis and angiogenesis in the bone marrow, altogether leading to overproduction of inflammatory myeloid cells and systemic leukocytosis. Limiting angiogenesis with endothelial deletion of Vegfr2 (encoding vascular endothelial growth factor (VEGF) receptor 2) curbed emergency hematopoiesis after MI. We noted that bone marrow endothelial cells assumed inflammatory transcriptional phenotypes in all examined stages of cardiovascular disease. Endothelial deletion of Il6 or Vcan (encoding versican), genes shown to be highly expressed in mice with atherosclerosis or MI, reduced hematopoiesis and systemic myeloid cell numbers in these conditions. Our findings establish that cardiovascular disease remodels the vascular bone marrow niche, stimulating hematopoiesis and production of inflammatory leukocytes.

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DO - https://doi.org/10.1038/s44161-021-00002-8

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