Stiff matrix induces exosome secretion to promote tumour growth

Bin Wu; Di Ao Liu; Lei Guan; Phyoe Kyawe Myint; Li Kang Chin; Hien Dang; Ye Xu; Jinqi Ren; Ting Li; Ziyan Yu; Sophie Jabban; Gordon B. Mills; Jonathan Nukpezah; Youhai H. Chen; Emma E. Furth; Phyllis A. Gimotty; Rebecca G. Wells; Valerie M. Weaver; Ravi Radhakrishnan; Xin Wei Wang; Wei Guo

doi:10.1038/s41556-023-01092-1

Stiff matrix induces exosome secretion to promote tumour growth

Bin Wu, Di Ao Liu, Lei Guan, Phyoe Kyawe Myint, Li Kang Chin, Hien Dang, Ye Xu, Jinqi Ren, Ting Li, Ziyan Yu, Sophie Jabban, Gordon B. Mills, Jonathan Nukpezah, Youhai H. Chen, Emma E. Furth, Phyllis A. Gimotty, Rebecca G. Wells, Valerie M. Weaver, Ravi Radhakrishnan, Xin Wei WangWei Guo

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

40 Scopus citations

Abstract

Tissue fibrosis and extracellular matrix (ECM) stiffening promote tumour progression. The mechanisms by which ECM regulates its contacting cells have been extensively studied. However, how stiffness influences intercellular communications in the microenvironment for tumour progression remains unknown. Here we report that stiff ECM stimulates the release of exosomes from cancer cells. We delineate a molecular pathway that links stiff ECM to activation of Akt, which in turn promotes GTP loading to Rab8 that drives exosome secretion. We further show that exosomes generated from cells grown on stiff ECM effectively promote tumour growth. Proteomic analysis revealed that the Notch signalling pathway is activated in cells treated with exosomes derived from tumour cells grown on stiff ECM, consistent with our gene expression analysis of liver tissues from patients. Our study reveals a molecular mechanism that regulates exosome secretion and provides insight into how mechanical properties of the ECM control the tumour microenvironment for tumour growth.

Original language	English (US)
Pages (from-to)	415-424
Number of pages	10
Journal	Nature Cell Biology
Volume	25
Issue number	3
DOIs	https://doi.org/10.1038/s41556-023-01092-1
State	Published - Mar 2023

ASJC Scopus subject areas

Cell Biology

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Wu, B., Liu, D. A., Guan, L., Myint, P. K., Chin, L. K., Dang, H., Xu, Y., Ren, J., Li, T., Yu, Z., Jabban, S., Mills, G. B., Nukpezah, J., Chen, Y. H., Furth, E. E., Gimotty, P. A., Wells, R. G., Weaver, V. M., Radhakrishnan, R., ... Guo, W. (2023). Stiff matrix induces exosome secretion to promote tumour growth. Nature Cell Biology, 25(3), 415-424. https://doi.org/10.1038/s41556-023-01092-1

Wu, B, Liu, DA, Guan, L, Myint, PK, Chin, LK, Dang, H, Xu, Y, Ren, J, Li, T, Yu, Z, Jabban, S, Mills, GB, Nukpezah, J, Chen, YH, Furth, EE, Gimotty, PA, Wells, RG, Weaver, VM, Radhakrishnan, R, Wang, XW & Guo, W 2023, 'Stiff matrix induces exosome secretion to promote tumour growth', Nature Cell Biology, vol. 25, no. 3, pp. 415-424. https://doi.org/10.1038/s41556-023-01092-1

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title = "Stiff matrix induces exosome secretion to promote tumour growth",

abstract = "Tissue fibrosis and extracellular matrix (ECM) stiffening promote tumour progression. The mechanisms by which ECM regulates its contacting cells have been extensively studied. However, how stiffness influences intercellular communications in the microenvironment for tumour progression remains unknown. Here we report that stiff ECM stimulates the release of exosomes from cancer cells. We delineate a molecular pathway that links stiff ECM to activation of Akt, which in turn promotes GTP loading to Rab8 that drives exosome secretion. We further show that exosomes generated from cells grown on stiff ECM effectively promote tumour growth. Proteomic analysis revealed that the Notch signalling pathway is activated in cells treated with exosomes derived from tumour cells grown on stiff ECM, consistent with our gene expression analysis of liver tissues from patients. Our study reveals a molecular mechanism that regulates exosome secretion and provides insight into how mechanical properties of the ECM control the tumour microenvironment for tumour growth.",

author = "Bin Wu and Liu, {Di Ao} and Lei Guan and Myint, {Phyoe Kyawe} and Chin, {Li Kang} and Hien Dang and Ye Xu and Jinqi Ren and Ting Li and Ziyan Yu and Sophie Jabban and Mills, {Gordon B.} and Jonathan Nukpezah and Chen, {Youhai H.} and Furth, {Emma E.} and Gimotty, {Phyllis A.} and Wells, {Rebecca G.} and Weaver, {Valerie M.} and Ravi Radhakrishnan and Wang, {Xin Wei} and Wei Guo",

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AU - Chin, Li Kang

AU - Dang, Hien

AU - Xu, Ye

AU - Ren, Jinqi

AU - Li, Ting

AU - Yu, Ziyan

AU - Jabban, Sophie

AU - Mills, Gordon B.

AU - Nukpezah, Jonathan

AU - Chen, Youhai H.

AU - Furth, Emma E.

AU - Gimotty, Phyllis A.

AU - Wells, Rebecca G.

AU - Weaver, Valerie M.

AU - Radhakrishnan, Ravi

AU - Wang, Xin Wei

AU - Guo, Wei

PY - 2023/3

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AB - Tissue fibrosis and extracellular matrix (ECM) stiffening promote tumour progression. The mechanisms by which ECM regulates its contacting cells have been extensively studied. However, how stiffness influences intercellular communications in the microenvironment for tumour progression remains unknown. Here we report that stiff ECM stimulates the release of exosomes from cancer cells. We delineate a molecular pathway that links stiff ECM to activation of Akt, which in turn promotes GTP loading to Rab8 that drives exosome secretion. We further show that exosomes generated from cells grown on stiff ECM effectively promote tumour growth. Proteomic analysis revealed that the Notch signalling pathway is activated in cells treated with exosomes derived from tumour cells grown on stiff ECM, consistent with our gene expression analysis of liver tissues from patients. Our study reveals a molecular mechanism that regulates exosome secretion and provides insight into how mechanical properties of the ECM control the tumour microenvironment for tumour growth.

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Stiff matrix induces exosome secretion to promote tumour growth

Abstract

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