Cancer exosomes induce tumor innervation

Marianna Madeo; Paul L. Colbert; Daniel W. Vermeer; Christopher T. Lucido; Jacob T. Cain; Elisabeth G. Vichaya; Aaron J. Grossberg; Desi Rae Muirhead; Alex P. Rickel; Zhongkui Hong; Jing Zhao; Jill M. Weimer; William C. Spanos; John H. Lee; Robert Dantzer; Paola D. Vermeer

doi:10.1038/s41467-018-06640-0

Cancer exosomes induce tumor innervation

Marianna Madeo, Paul L. Colbert, Daniel W. Vermeer, Christopher T. Lucido, Jacob T. Cain, Elisabeth G. Vichaya, Aaron J. Grossberg, Desi Rae Muirhead, Alex P. Rickel, Zhongkui Hong, Jing Zhao, Jill M. Weimer, William C. Spanos, John H. Lee, Robert Dantzer, Paola D. Vermeer

Knight Cancer Prevention and Control Program

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

158 Scopus citations

Abstract

Patients with densely innervated tumors suffer with increased metastasis and decreased survival as compared to those with less innervated tumors. We hypothesize that in some tumors, nerves are acquired by a tumor-induced process, called axonogenesis. Here, we use PC12 cells as an in vitro neuronal model, human tumor samples and murine in vivo models to test this hypothesis. When appropriately stimulated, PC12 cells extend processes, called neurites. We show that patient tumors release vesicles, called exosomes, which induce PC12 neurite outgrowth. Using a cancer mouse model, we show that tumors compromised in exosome release are less innervated than controls. Moreover, in vivo pharmacological blockade of exosome release similarly attenuates tumor innervation. We characterize these nerves as sensory in nature and demonstrate that axonogenesis is potentiated by the exosome-packaged axonal guidance molecule, EphrinB1. These findings indicate that tumor released exosomes induce tumor innervation and exosomes containing EphrinB1 potentiate this activity.

Original language	English (US)
Article number	4284
Journal	Nature communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-06640-0
State	Published - Dec 1 2018

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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title = "Cancer exosomes induce tumor innervation",

abstract = "Patients with densely innervated tumors suffer with increased metastasis and decreased survival as compared to those with less innervated tumors. We hypothesize that in some tumors, nerves are acquired by a tumor-induced process, called axonogenesis. Here, we use PC12 cells as an in vitro neuronal model, human tumor samples and murine in vivo models to test this hypothesis. When appropriately stimulated, PC12 cells extend processes, called neurites. We show that patient tumors release vesicles, called exosomes, which induce PC12 neurite outgrowth. Using a cancer mouse model, we show that tumors compromised in exosome release are less innervated than controls. Moreover, in vivo pharmacological blockade of exosome release similarly attenuates tumor innervation. We characterize these nerves as sensory in nature and demonstrate that axonogenesis is potentiated by the exosome-packaged axonal guidance molecule, EphrinB1. These findings indicate that tumor released exosomes induce tumor innervation and exosomes containing EphrinB1 potentiate this activity.",

author = "Marianna Madeo and Colbert, {Paul L.} and Vermeer, {Daniel W.} and Lucido, {Christopher T.} and Cain, {Jacob T.} and Vichaya, {Elisabeth G.} and Grossberg, {Aaron J.} and Muirhead, {Desi Rae} and Rickel, {Alex P.} and Zhongkui Hong and Jing Zhao and Weimer, {Jill M.} and Spanos, {William C.} and Lee, {John H.} and Robert Dantzer and Vermeer, {Paola D.}",

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AU - Madeo, Marianna

AU - Colbert, Paul L.

AU - Vermeer, Daniel W.

AU - Lucido, Christopher T.

AU - Cain, Jacob T.

AU - Vichaya, Elisabeth G.

AU - Grossberg, Aaron J.

AU - Muirhead, Desi Rae

AU - Rickel, Alex P.

AU - Hong, Zhongkui

AU - Zhao, Jing

AU - Weimer, Jill M.

AU - Spanos, William C.

AU - Lee, John H.

AU - Dantzer, Robert

AU - Vermeer, Paola D.

PY - 2018/12/1

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N2 - Patients with densely innervated tumors suffer with increased metastasis and decreased survival as compared to those with less innervated tumors. We hypothesize that in some tumors, nerves are acquired by a tumor-induced process, called axonogenesis. Here, we use PC12 cells as an in vitro neuronal model, human tumor samples and murine in vivo models to test this hypothesis. When appropriately stimulated, PC12 cells extend processes, called neurites. We show that patient tumors release vesicles, called exosomes, which induce PC12 neurite outgrowth. Using a cancer mouse model, we show that tumors compromised in exosome release are less innervated than controls. Moreover, in vivo pharmacological blockade of exosome release similarly attenuates tumor innervation. We characterize these nerves as sensory in nature and demonstrate that axonogenesis is potentiated by the exosome-packaged axonal guidance molecule, EphrinB1. These findings indicate that tumor released exosomes induce tumor innervation and exosomes containing EphrinB1 potentiate this activity.

AB - Patients with densely innervated tumors suffer with increased metastasis and decreased survival as compared to those with less innervated tumors. We hypothesize that in some tumors, nerves are acquired by a tumor-induced process, called axonogenesis. Here, we use PC12 cells as an in vitro neuronal model, human tumor samples and murine in vivo models to test this hypothesis. When appropriately stimulated, PC12 cells extend processes, called neurites. We show that patient tumors release vesicles, called exosomes, which induce PC12 neurite outgrowth. Using a cancer mouse model, we show that tumors compromised in exosome release are less innervated than controls. Moreover, in vivo pharmacological blockade of exosome release similarly attenuates tumor innervation. We characterize these nerves as sensory in nature and demonstrate that axonogenesis is potentiated by the exosome-packaged axonal guidance molecule, EphrinB1. These findings indicate that tumor released exosomes induce tumor innervation and exosomes containing EphrinB1 potentiate this activity.

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Cancer exosomes induce tumor innervation

Abstract

ASJC Scopus subject areas

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