Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling

Frederik Johannes Verweij; Maarten P. Bebelman; Connie R. Jimenez; Juan J. Garcia-Vallejo; Hans Janssen; Jacques Neefjes; Jaco C. Knol; Richard de Goeij-de Haas; Sander R. Piersma; S. Rubina Baglio; Matthijs Verhage; Jaap M. Middeldorp; Anoek Zomer; Jacco van Rheenen; Marc G. Coppolino; Ilse Hurbain; Graça Raposo; Martine J. Smit; Ruud F. G. Toonen; Guillaume van Niel; D. Michiel Pegtel

doi:https://doi.org/10.1083/jcb.201703206

Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling

Frederik Johannes Verweij, Maarten P. Bebelman, Connie R. Jimenez, Juan J. Garcia-Vallejo, Hans Janssen, Jacques Neefjes, Jaco C. Knol, Richard de Goeij-de Haas, Sander R. Piersma, S. Rubina Baglio, Matthijs Verhage, Jaap M. Middeldorp, Anoek Zomer, Jacco van Rheenen, Marc G. Coppolino, Ilse Hurbain, Graça Raposo, Martine J. Smit, Ruud F. G. Toonen, Guillaume van NielD. Michiel Pegtel

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

193 Citations (Scopus)

Abstract

Exosomes are small endosome-derived extracellular vesicles implicated in cell-cell communication and are secreted by living cells when multivesicular bodies (MVBs) fuse with the plasma membrane (PM). Current techniques to study exosome physiology are based on isolation procedures after secretion, precluding direct and dynamic insight into the mechanics of exosome biogenesis and the regulation of their release. In this study, we propose real-time visualization of MVB-PM fusion to overcome these limitations. We designed tetraspanin-based pH-sensitive optical reporters that detect MVB-PM fusion using live total internal reflection fluorescence and dynamic correlative light-electron microscopy. Quantitative analysis demonstrates that MVB-PM fusion frequency is reduced by depleting the target membrane SNA REs SNAP23 and syntaxin-4 but also can be induced in single cells by stimulation of the histamine H1 receptor (H1HR). Interestingly, activation of H1R1 in HeLa cells increases Ser110 phosphorylation of SNAP23, promoting MVB-PM fusion and the release of CD63-enriched exosomes. Using this single-cell resolution approach, we highlight the modulatory dynamics of MVB exocytosis that will help to increase our understanding of exosome physiology and identify druggable targets in exosome-associated pathologies.

Original language	English
Pages (from-to)	1129-1142
Number of pages	14
Journal	Journal of cell biology
Volume	217
Issue number	3
Early online date	16 Jan 2018
DOIs	https://doi.org/10.1083/jcb.201703206
Publication status	Published - 1 Mar 2018

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Journal Article

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Verweij, F. J., Bebelman, M. P., Jimenez, C. R., Garcia-Vallejo, J. J., Janssen, H., Neefjes, J., Knol, J. C., de Goeij-de Haas, R., Piersma, S. R., Baglio, S. R., Verhage, M., Middeldorp, J. M., Zomer, A., van Rheenen, J., Coppolino, M. G., Hurbain, I., Raposo, G., Smit, M. J., Toonen, R. F. G., ... Pegtel, D. M. (2018). Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling. Journal of cell biology, 217(3), 1129-1142. https://doi.org/10.1083/jcb.201703206

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title = "Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling",

abstract = "Exosomes are small endosome-derived extracellular vesicles implicated in cell-cell communication and are secreted by living cells when multivesicular bodies (MVBs) fuse with the plasma membrane (PM). Current techniques to study exosome physiology are based on isolation procedures after secretion, precluding direct and dynamic insight into the mechanics of exosome biogenesis and the regulation of their release. In this study, we propose real-time visualization of MVB-PM fusion to overcome these limitations. We designed tetraspanin-based pH-sensitive optical reporters that detect MVB-PM fusion using live total internal reflection fluorescence and dynamic correlative light-electron microscopy. Quantitative analysis demonstrates that MVB-PM fusion frequency is reduced by depleting the target membrane SNA REs SNAP23 and syntaxin-4 but also can be induced in single cells by stimulation of the histamine H1 receptor (H1HR). Interestingly, activation of H1R1 in HeLa cells increases Ser110 phosphorylation of SNAP23, promoting MVB-PM fusion and the release of CD63-enriched exosomes. Using this single-cell resolution approach, we highlight the modulatory dynamics of MVB exocytosis that will help to increase our understanding of exosome physiology and identify druggable targets in exosome-associated pathologies.",

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author = "Verweij, {Frederik Johannes} and Bebelman, {Maarten P.} and Jimenez, {Connie R.} and Garcia-Vallejo, {Juan J.} and Hans Janssen and Jacques Neefjes and Knol, {Jaco C.} and {de Goeij-de Haas}, Richard and Piersma, {Sander R.} and Baglio, {S. Rubina} and Matthijs Verhage and Middeldorp, {Jaap M.} and Anoek Zomer and {van Rheenen}, Jacco and Coppolino, {Marc G.} and Ilse Hurbain and Gra{\c c}a Raposo and Smit, {Martine J.} and Toonen, {Ruud F. G.} and {van Niel}, Guillaume and Pegtel, {D. Michiel}",

year = "2018",

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doi = "https://doi.org/10.1083/jcb.201703206",

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Verweij, FJ, Bebelman, MP, Jimenez, CR , Garcia-Vallejo, JJ, Janssen, H, Neefjes, J, Knol, JC, de Goeij-de Haas, R, Piersma, SR , Baglio, SR , Verhage, M , Middeldorp, JM, Zomer, A, van Rheenen, J, Coppolino, MG, Hurbain, I, Raposo, G, Smit, MJ, Toonen, RFG, van Niel, G & Pegtel, DM 2018, 'Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling', Journal of cell biology, vol. 217, no. 3, pp. 1129-1142. https://doi.org/10.1083/jcb.201703206

TY - JOUR

T1 - Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling

AU - Verweij, Frederik Johannes

AU - Bebelman, Maarten P.

AU - Jimenez, Connie R.

AU - Garcia-Vallejo, Juan J.

AU - Janssen, Hans

AU - Neefjes, Jacques

AU - Knol, Jaco C.

AU - de Goeij-de Haas, Richard

AU - Piersma, Sander R.

AU - Baglio, S. Rubina

AU - Verhage, Matthijs

AU - Middeldorp, Jaap M.

AU - Zomer, Anoek

AU - van Rheenen, Jacco

AU - Coppolino, Marc G.

AU - Hurbain, Ilse

AU - Raposo, Graça

AU - Smit, Martine J.

AU - Toonen, Ruud F. G.

AU - van Niel, Guillaume

AU - Pegtel, D. Michiel

PY - 2018/3/1

Y1 - 2018/3/1

N2 - Exosomes are small endosome-derived extracellular vesicles implicated in cell-cell communication and are secreted by living cells when multivesicular bodies (MVBs) fuse with the plasma membrane (PM). Current techniques to study exosome physiology are based on isolation procedures after secretion, precluding direct and dynamic insight into the mechanics of exosome biogenesis and the regulation of their release. In this study, we propose real-time visualization of MVB-PM fusion to overcome these limitations. We designed tetraspanin-based pH-sensitive optical reporters that detect MVB-PM fusion using live total internal reflection fluorescence and dynamic correlative light-electron microscopy. Quantitative analysis demonstrates that MVB-PM fusion frequency is reduced by depleting the target membrane SNA REs SNAP23 and syntaxin-4 but also can be induced in single cells by stimulation of the histamine H1 receptor (H1HR). Interestingly, activation of H1R1 in HeLa cells increases Ser110 phosphorylation of SNAP23, promoting MVB-PM fusion and the release of CD63-enriched exosomes. Using this single-cell resolution approach, we highlight the modulatory dynamics of MVB exocytosis that will help to increase our understanding of exosome physiology and identify druggable targets in exosome-associated pathologies.

AB - Exosomes are small endosome-derived extracellular vesicles implicated in cell-cell communication and are secreted by living cells when multivesicular bodies (MVBs) fuse with the plasma membrane (PM). Current techniques to study exosome physiology are based on isolation procedures after secretion, precluding direct and dynamic insight into the mechanics of exosome biogenesis and the regulation of their release. In this study, we propose real-time visualization of MVB-PM fusion to overcome these limitations. We designed tetraspanin-based pH-sensitive optical reporters that detect MVB-PM fusion using live total internal reflection fluorescence and dynamic correlative light-electron microscopy. Quantitative analysis demonstrates that MVB-PM fusion frequency is reduced by depleting the target membrane SNA REs SNAP23 and syntaxin-4 but also can be induced in single cells by stimulation of the histamine H1 receptor (H1HR). Interestingly, activation of H1R1 in HeLa cells increases Ser110 phosphorylation of SNAP23, promoting MVB-PM fusion and the release of CD63-enriched exosomes. Using this single-cell resolution approach, we highlight the modulatory dynamics of MVB exocytosis that will help to increase our understanding of exosome physiology and identify druggable targets in exosome-associated pathologies.

KW - Journal Article

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SN - 0021-9525

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EP - 1142

JO - Journal of cell biology

JF - Journal of cell biology

IS - 3

ER -

Quantifying exosome secretion from single cells reveals a modulatory role for GPCR signaling

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