Macrophage-induced blood vessels guide Schwann cell-mediated regeneration of peripheral nerves

Anne Laure Cattin; Jemima J. Burden; Lucie Van Emmenis; Francesca E. MacKenzie; Julian J.A. Hoving; Noelia Garcia Calavia; Yanping Guo; Maeve McLaughlin; Laura H. Rosenberg; Victor Quereda; Denisa Jamecna; Ilaria Napoli; Simona Parrinello; Tariq Enver; Christiana Ruhrberg; Alison C. Lloyd

Macrophage-induced blood vessels guide Schwann cell-mediated regeneration of peripheral nerves

Anne Laure Cattin, Jemima J. Burden, Lucie Van Emmenis, Francesca E. MacKenzie, Julian J.A. Hoving, Noelia Garcia Calavia, Yanping Guo, Maeve McLaughlin, Laura H. Rosenberg, Victor Quereda, Denisa Jamecna, Ilaria Napoli, Simona Parrinello, Tariq Enver, Christiana Ruhrberg, Alison C. Lloyd

University College London

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

Abstract

The peripheral nervous system has remarkable regenerative capacities in that it can repair a fully cut nerve. This requires Schwann cells to migrate collectively to guide regrowing axons across a 'bridge' of new tissue, which forms to reconnect a severed nerve. Here we show that blood vessels direct the migrating cords of Schwann cells. This multicellular process is initiated by hypoxia, selectively sensed by macrophages within the bridge, which via VEGF-A secretion induce a polarized vasculature that relieves the hypoxia. Schwann cells then use the blood vessels as "tracks" to cross the bridge taking regrowing axons with them. Importantly, disrupting the organization of the newly formed blood vessels in vivo, either by inhibiting the angiogenic signal or by re-orienting them, compromises Schwann cell directionality resulting in defective nerve repair. This study provides important insights into how the choreography of multiple cell-types is required for the regeneration of an adult tissue.

Original language	English
Pages (from-to)	1127-1139
Journal	Cell
Volume	162
Issue number	5
Early online date	13 Aug 2015
Publication status	Published - 27 Aug 2015

Bibliographical note

Note: This work was supported by Cancer Research UK [grant number: C378/A17135], Worldwide Cancer Research, the Biotechnology and Biological Sciences Research Council [grant number: BB/J00930X/1] and the Rosetrees Trust [grant number: A533].

Keywords

Biological sciences

Access to Document

Mackenzie-F-39939-VoRFinal published version, 7.07 MBLicence: CC BY

Cite this

@article{70fcbf0537f949a89c376f71fb04acf2,

title = "Macrophage-induced blood vessels guide Schwann cell-mediated regeneration of peripheral nerves",

abstract = "The peripheral nervous system has remarkable regenerative capacities in that it can repair a fully cut nerve. This requires Schwann cells to migrate collectively to guide regrowing axons across a 'bridge' of new tissue, which forms to reconnect a severed nerve. Here we show that blood vessels direct the migrating cords of Schwann cells. This multicellular process is initiated by hypoxia, selectively sensed by macrophages within the bridge, which via VEGF-A secretion induce a polarized vasculature that relieves the hypoxia. Schwann cells then use the blood vessels as {"}tracks{"} to cross the bridge taking regrowing axons with them. Importantly, disrupting the organization of the newly formed blood vessels in vivo, either by inhibiting the angiogenic signal or by re-orienting them, compromises Schwann cell directionality resulting in defective nerve repair. This study provides important insights into how the choreography of multiple cell-types is required for the regeneration of an adult tissue.",

keywords = "Biological sciences",

author = "Cattin, \{Anne Laure\} and Burden, \{Jemima J.\} and \{Van Emmenis\}, Lucie and MacKenzie, \{Francesca E.\} and Hoving, \{Julian J.A.\} and \{Garcia Calavia\}, Noelia and Yanping Guo and Maeve McLaughlin and Rosenberg, \{Laura H.\} and Victor Quereda and Denisa Jamecna and Ilaria Napoli and Simona Parrinello and Tariq Enver and Christiana Ruhrberg and Lloyd, \{Alison C.\}",

note = "Note: This work was supported by Cancer Research UK [grant number: C378/A17135], Worldwide Cancer Research, the Biotechnology and Biological Sciences Research Council [grant number: BB/J00930X/1] and the Rosetrees Trust [grant number: A533].",

year = "2015",

month = aug,

day = "27",

language = "English",

volume = "162",

pages = "1127--1139",

journal = "Cell",

issn = "0092-8674",

publisher = "Elsevier B.V.",

number = "5",

}

TY - JOUR

T1 - Macrophage-induced blood vessels guide Schwann cell-mediated regeneration of peripheral nerves

AU - Cattin, Anne Laure

AU - Burden, Jemima J.

AU - Van Emmenis, Lucie

AU - MacKenzie, Francesca E.

AU - Hoving, Julian J.A.

AU - Garcia Calavia, Noelia

AU - Guo, Yanping

AU - McLaughlin, Maeve

AU - Rosenberg, Laura H.

AU - Quereda, Victor

AU - Jamecna, Denisa

AU - Napoli, Ilaria

AU - Parrinello, Simona

AU - Enver, Tariq

AU - Ruhrberg, Christiana

AU - Lloyd, Alison C.

N1 - Note: This work was supported by Cancer Research UK [grant number: C378/A17135], Worldwide Cancer Research, the Biotechnology and Biological Sciences Research Council [grant number: BB/J00930X/1] and the Rosetrees Trust [grant number: A533].

PY - 2015/8/27

Y1 - 2015/8/27

N2 - The peripheral nervous system has remarkable regenerative capacities in that it can repair a fully cut nerve. This requires Schwann cells to migrate collectively to guide regrowing axons across a 'bridge' of new tissue, which forms to reconnect a severed nerve. Here we show that blood vessels direct the migrating cords of Schwann cells. This multicellular process is initiated by hypoxia, selectively sensed by macrophages within the bridge, which via VEGF-A secretion induce a polarized vasculature that relieves the hypoxia. Schwann cells then use the blood vessels as "tracks" to cross the bridge taking regrowing axons with them. Importantly, disrupting the organization of the newly formed blood vessels in vivo, either by inhibiting the angiogenic signal or by re-orienting them, compromises Schwann cell directionality resulting in defective nerve repair. This study provides important insights into how the choreography of multiple cell-types is required for the regeneration of an adult tissue.

AB - The peripheral nervous system has remarkable regenerative capacities in that it can repair a fully cut nerve. This requires Schwann cells to migrate collectively to guide regrowing axons across a 'bridge' of new tissue, which forms to reconnect a severed nerve. Here we show that blood vessels direct the migrating cords of Schwann cells. This multicellular process is initiated by hypoxia, selectively sensed by macrophages within the bridge, which via VEGF-A secretion induce a polarized vasculature that relieves the hypoxia. Schwann cells then use the blood vessels as "tracks" to cross the bridge taking regrowing axons with them. Importantly, disrupting the organization of the newly formed blood vessels in vivo, either by inhibiting the angiogenic signal or by re-orienting them, compromises Schwann cell directionality resulting in defective nerve repair. This study provides important insights into how the choreography of multiple cell-types is required for the regeneration of an adult tissue.

KW - Biological sciences

UR - https://www.ncbi.nlm.nih.gov/pubmed/26279190

M3 - Article

C2 - 26279190

SN - 0092-8674

VL - 162

SP - 1127

EP - 1139

JO - Cell

JF - Cell

IS - 5

ER -

Macrophage-induced blood vessels guide Schwann cell-mediated regeneration of peripheral nerves

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

Cite this