Lymphatic vessels arise from specialized angioblasts within a venous niche

Julian Nicenboim; Guy Malkinson; Tal Lupo; Lihee Asaf; Yogev Sela; Oded Mayseless; Liron Gibbs-Bar; N. Senderovich; T. Hashimshony; Myoung Sook Shin; A. Jerafi-Vider; Inbal Avraham-Davidi; Vladislav Krupalnik; Roy Hofi; Gabriella Almog; J. W. Astin; Ofra Golani; Shifra Ben-Dor; P. S. Crosier; W. Herzog; N. D. Lawson; J. H. Hanna; I. Yanai; Karina Yaniv

doi:10.1038/nature14425

Lymphatic vessels arise from specialized angioblasts within a venous niche

Julian Nicenboim, Guy Malkinson, Tal Lupo, Lihee Asaf, Yogev Sela, Oded Mayseless, Liron Gibbs-Bar, N. Senderovich, T. Hashimshony, Myoung Sook Shin, A. Jerafi-Vider, Inbal Avraham-Davidi, Vladislav Krupalnik, Roy Hofi, Gabriella Almog, J. W. Astin, Ofra Golani, Shifra Ben-Dor, P. S. Crosier, W. HerzogN. D. Lawson, J. H. Hanna, I. Yanai, Karina Yaniv

Weizmann Institute of Science, Technion - Israel Institute of Technology

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

Abstract

How cells acquire their fate is a fundamental question in developmental and regenerative biology. Multipotent progenitors undergo cell-fate restriction in response to cues from the microenvironment, the nature of which is poorly understood. In the case of the lymphatic system, venous cells from the cardinal vein are thought to generate lymphatic vessels through trans-differentiation. Here we show that in zebrafish, lymphatic progenitors arise from a previously uncharacterized niche of specialized angioblasts within the cardinal vein, which also generates arterial and venous fates. We further identify Wnt5b as a novel lymphatic inductive signal and show that it also promotes the 'angioblast-to-lymphatic' transition in human embryonic stem cells, suggesting that this process is evolutionarily conserved. Our results uncover a novel mechanism of lymphatic specification, and provide the first characterization of the lymphatic inductive niche. More broadly, our findings highlight the cardinal vein as a heterogeneous structure, analogous to the haematopoietic niche in the aortic floor.

Original language	English
Pages (from-to)	56-61
Number of pages	6
Journal	Nature
Volume	522
Issue number	7554
DOIs	https://doi.org/10.1038/nature14425
State	Published - 4 Jun 2015

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Nicenboim, J., Malkinson, G., Lupo, T., Asaf, L., Sela, Y., Mayseless, O., Gibbs-Bar, L., Senderovich, N., Hashimshony, T., Shin, M. S., Jerafi-Vider, A., Avraham-Davidi, I., Krupalnik, V., Hofi, R., Almog, G., Astin, J. W., Golani, O., Ben-Dor, S., Crosier, P. S., ... Yaniv, K. (2015). Lymphatic vessels arise from specialized angioblasts within a venous niche. Nature, 522(7554), 56-61. https://doi.org/10.1038/nature14425

@article{b7fe0b53f3fc472d865a6e71a4029481,

title = "Lymphatic vessels arise from specialized angioblasts within a venous niche",

abstract = "How cells acquire their fate is a fundamental question in developmental and regenerative biology. Multipotent progenitors undergo cell-fate restriction in response to cues from the microenvironment, the nature of which is poorly understood. In the case of the lymphatic system, venous cells from the cardinal vein are thought to generate lymphatic vessels through trans-differentiation. Here we show that in zebrafish, lymphatic progenitors arise from a previously uncharacterized niche of specialized angioblasts within the cardinal vein, which also generates arterial and venous fates. We further identify Wnt5b as a novel lymphatic inductive signal and show that it also promotes the 'angioblast-to-lymphatic' transition in human embryonic stem cells, suggesting that this process is evolutionarily conserved. Our results uncover a novel mechanism of lymphatic specification, and provide the first characterization of the lymphatic inductive niche. More broadly, our findings highlight the cardinal vein as a heterogeneous structure, analogous to the haematopoietic niche in the aortic floor.",

author = "Julian Nicenboim and Guy Malkinson and Tal Lupo and Lihee Asaf and Yogev Sela and Oded Mayseless and Liron Gibbs-Bar and N. Senderovich and T. Hashimshony and Shin, \{Myoung Sook\} and A. Jerafi-Vider and Inbal Avraham-Davidi and Vladislav Krupalnik and Roy Hofi and Gabriella Almog and Astin, \{J. W.\} and Ofra Golani and Shifra Ben-Dor and Crosier, \{P. S.\} and W. Herzog and Lawson, \{N. D.\} and Hanna, \{J. H.\} and I. Yanai and Karina Yaniv",

year = "2015",

month = jun,

day = "4",

doi = "10.1038/nature14425",

language = "الإنجليزيّة",

volume = "522",

pages = "56--61",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7554",

}

Nicenboim, J, Malkinson, G, Lupo, T, Asaf, L, Sela, Y, Mayseless, O, Gibbs-Bar, L, Senderovich, N, Hashimshony, T, Shin, MS, Jerafi-Vider, A, Avraham-Davidi, I, Krupalnik, V, Hofi, R, Almog, G, Astin, JW, Golani, O, Ben-Dor, S, Crosier, PS, Herzog, W, Lawson, ND, Hanna, JH, Yanai, I & Yaniv, K 2015, 'Lymphatic vessels arise from specialized angioblasts within a venous niche', Nature, vol. 522, no. 7554, pp. 56-61. https://doi.org/10.1038/nature14425

TY - JOUR

T1 - Lymphatic vessels arise from specialized angioblasts within a venous niche

AU - Nicenboim, Julian

AU - Malkinson, Guy

AU - Lupo, Tal

AU - Asaf, Lihee

AU - Sela, Yogev

AU - Mayseless, Oded

AU - Gibbs-Bar, Liron

AU - Senderovich, N.

AU - Hashimshony, T.

AU - Shin, Myoung Sook

AU - Jerafi-Vider, A.

AU - Avraham-Davidi, Inbal

AU - Krupalnik, Vladislav

AU - Hofi, Roy

AU - Almog, Gabriella

AU - Astin, J. W.

AU - Golani, Ofra

AU - Ben-Dor, Shifra

AU - Crosier, P. S.

AU - Herzog, W.

AU - Lawson, N. D.

AU - Hanna, J. H.

AU - Yanai, I.

AU - Yaniv, Karina

PY - 2015/6/4

Y1 - 2015/6/4

N2 - How cells acquire their fate is a fundamental question in developmental and regenerative biology. Multipotent progenitors undergo cell-fate restriction in response to cues from the microenvironment, the nature of which is poorly understood. In the case of the lymphatic system, venous cells from the cardinal vein are thought to generate lymphatic vessels through trans-differentiation. Here we show that in zebrafish, lymphatic progenitors arise from a previously uncharacterized niche of specialized angioblasts within the cardinal vein, which also generates arterial and venous fates. We further identify Wnt5b as a novel lymphatic inductive signal and show that it also promotes the 'angioblast-to-lymphatic' transition in human embryonic stem cells, suggesting that this process is evolutionarily conserved. Our results uncover a novel mechanism of lymphatic specification, and provide the first characterization of the lymphatic inductive niche. More broadly, our findings highlight the cardinal vein as a heterogeneous structure, analogous to the haematopoietic niche in the aortic floor.

AB - How cells acquire their fate is a fundamental question in developmental and regenerative biology. Multipotent progenitors undergo cell-fate restriction in response to cues from the microenvironment, the nature of which is poorly understood. In the case of the lymphatic system, venous cells from the cardinal vein are thought to generate lymphatic vessels through trans-differentiation. Here we show that in zebrafish, lymphatic progenitors arise from a previously uncharacterized niche of specialized angioblasts within the cardinal vein, which also generates arterial and venous fates. We further identify Wnt5b as a novel lymphatic inductive signal and show that it also promotes the 'angioblast-to-lymphatic' transition in human embryonic stem cells, suggesting that this process is evolutionarily conserved. Our results uncover a novel mechanism of lymphatic specification, and provide the first characterization of the lymphatic inductive niche. More broadly, our findings highlight the cardinal vein as a heterogeneous structure, analogous to the haematopoietic niche in the aortic floor.

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U2 - 10.1038/nature14425

DO - 10.1038/nature14425

M3 - مقالة

C2 - 25992545

SN - 0028-0836

VL - 522

SP - 56

EP - 61

JO - Nature

JF - Nature

IS - 7554

ER -

Lymphatic vessels arise from specialized angioblasts within a venous niche

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