Tunneling nanotubes, a novel mode of tumor cell–macrophage communication in tumor cell invasion

Samer J. Hanna; Kessler McCoy-Simandle; Edison Leung; Alessandro Genna; John Condeelis; Dianne Cox

doi:10.1242/jcs.223321

Tunneling nanotubes, a novel mode of tumor cell–macrophage communication in tumor cell invasion

Samer J. Hanna
, Kessler McCoy-Simandle
, Edison Leung
, Alessandro Genna
, John Condeelis
, Dianne Cox^*

^*Corresponding author for this work

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

102 Citations (Scopus)

Abstract

The interaction between tumor cells and macrophages is crucial in promoting tumor invasion and metastasis. In this study, we examined a novel mechanism of intercellular communication, namely membranous actin-based tunneling nanotubes (TNTs), that occurs between macrophages and tumor cells in the promotion of macrophage-dependent tumor cell invasion. The presence of heterotypic TNTs between macrophages and tumor cells induced invasive tumor cell morphology, which was dependent on EGF–EGFR signaling. Furthermore, reduction of a protein involved in TNT formation, M-Sec (TNFAIP2), in macrophages inhibited tumor cell elongation, blocked the ability of tumor cells to invade in 3D and reduced macrophage-dependent long-distance tumor cell streaming in vitro. Using an in vivo zebrafish model that recreates macrophage-mediated tumor cell invasion, we observed TNT-mediated macrophage-dependent tumor cell invasion, distant metastatic foci and areas of metastatic spread. Overall, our studies support a role for TNTs as a novel means of interaction between tumor cells and macrophages that leads to tumor progression and metastasis.

Original language	English
Article number	jcs223321
Journal	Journal of Cell Science
Volume	132
Issue number	3
DOIs	https://doi.org/10.1242/jcs.223321
Publication status	Published - Feb 2019
Externally published	Yes

Funding

This work was supported by National Institutes of Health grants R01 GM071828 to D.C., P01 CA100324 to S.J.H., J.C. and D.C., P01 CA150344 to J.C. and F99 CA212451 (National Cancer Institute) to S.J.H. K.M.-S. was funded under a National Institutes of Health IRACDA fellowship where the content is solely the responsibility of the authors and does not necessarily represent the official views supporting K12GM102779. The 3D-SIM Nikon super resolution microscope used in this study is part of the Analytical Imaging Facility at Albert Einstein College of Medicine supported by National Cancer Institute cancer center grant P30CA013330 and shared instrumentation grant (SIG) 1S10OD18218-1. Deposited in PMC for release after 12 months.

All Science Journal Classification (ASJC) codes

Cell Biology

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Cite this

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title = "Tunneling nanotubes, a novel mode of tumor cell–macrophage communication in tumor cell invasion",

abstract = "The interaction between tumor cells and macrophages is crucial in promoting tumor invasion and metastasis. In this study, we examined a novel mechanism of intercellular communication, namely membranous actin-based tunneling nanotubes (TNTs), that occurs between macrophages and tumor cells in the promotion of macrophage-dependent tumor cell invasion. The presence of heterotypic TNTs between macrophages and tumor cells induced invasive tumor cell morphology, which was dependent on EGF–EGFR signaling. Furthermore, reduction of a protein involved in TNT formation, M-Sec (TNFAIP2), in macrophages inhibited tumor cell elongation, blocked the ability of tumor cells to invade in 3D and reduced macrophage-dependent long-distance tumor cell streaming in vitro. Using an in vivo zebrafish model that recreates macrophage-mediated tumor cell invasion, we observed TNT-mediated macrophage-dependent tumor cell invasion, distant metastatic foci and areas of metastatic spread. Overall, our studies support a role for TNTs as a novel means of interaction between tumor cells and macrophages that leads to tumor progression and metastasis.",

author = "Hanna, \{Samer J.\} and Kessler McCoy-Simandle and Edison Leung and Alessandro Genna and John Condeelis and Dianne Cox",

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AU - Hanna, Samer J.

AU - McCoy-Simandle, Kessler

AU - Leung, Edison

AU - Genna, Alessandro

AU - Condeelis, John

AU - Cox, Dianne

PY - 2019/2

Y1 - 2019/2

N2 - The interaction between tumor cells and macrophages is crucial in promoting tumor invasion and metastasis. In this study, we examined a novel mechanism of intercellular communication, namely membranous actin-based tunneling nanotubes (TNTs), that occurs between macrophages and tumor cells in the promotion of macrophage-dependent tumor cell invasion. The presence of heterotypic TNTs between macrophages and tumor cells induced invasive tumor cell morphology, which was dependent on EGF–EGFR signaling. Furthermore, reduction of a protein involved in TNT formation, M-Sec (TNFAIP2), in macrophages inhibited tumor cell elongation, blocked the ability of tumor cells to invade in 3D and reduced macrophage-dependent long-distance tumor cell streaming in vitro. Using an in vivo zebrafish model that recreates macrophage-mediated tumor cell invasion, we observed TNT-mediated macrophage-dependent tumor cell invasion, distant metastatic foci and areas of metastatic spread. Overall, our studies support a role for TNTs as a novel means of interaction between tumor cells and macrophages that leads to tumor progression and metastasis.

AB - The interaction between tumor cells and macrophages is crucial in promoting tumor invasion and metastasis. In this study, we examined a novel mechanism of intercellular communication, namely membranous actin-based tunneling nanotubes (TNTs), that occurs between macrophages and tumor cells in the promotion of macrophage-dependent tumor cell invasion. The presence of heterotypic TNTs between macrophages and tumor cells induced invasive tumor cell morphology, which was dependent on EGF–EGFR signaling. Furthermore, reduction of a protein involved in TNT formation, M-Sec (TNFAIP2), in macrophages inhibited tumor cell elongation, blocked the ability of tumor cells to invade in 3D and reduced macrophage-dependent long-distance tumor cell streaming in vitro. Using an in vivo zebrafish model that recreates macrophage-mediated tumor cell invasion, we observed TNT-mediated macrophage-dependent tumor cell invasion, distant metastatic foci and areas of metastatic spread. Overall, our studies support a role for TNTs as a novel means of interaction between tumor cells and macrophages that leads to tumor progression and metastasis.

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Tunneling nanotubes, a novel mode of tumor cell–macrophage communication in tumor cell invasion

Abstract

Funding

All Science Journal Classification (ASJC) codes

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