Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells
Li Y, Arghittu SM, Dietz MS, Hella GJ, Haße D, Ferraris DM, Freund P, Barth H-D, Iamele L, de Jonge H, Niemann H, et al. (2024)
Nature Communications 15(1): 9486.
Zeitschriftenaufsatz
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Autor*in
Li, Yunqing;
Arghittu, Serena M.;
Dietz, Marina S.;
Hella, Gabriel J.;
Haße, DanielUniBi;
Ferraris, Davide M.;
Freund, Petra;
Barth, Hans-Dieter;
Iamele, Luisa;
de Jonge, Hugo;
Niemann, HartmutUniBi ;
Covino, Roberto
Alle
Alle
Einrichtung
Abstract / Bemerkung
Embedding of cell-surface receptors into a membrane defines their dynamics but also complicates experimental characterization of their signaling complexes. The hepatocyte growth factor receptor MET is a receptor tyrosine kinase involved in cellular processes such as proliferation, migration, and survival. It is also targeted by the pathogen Listeria monocytogenes, whose invasion protein, internalin B (InlB), binds to MET, forming a signaling dimer that triggers pathogen internalization. Here we use an integrative structural biology approach, combining molecular dynamics simulations and single-molecule Forster resonance energy transfer (smFRET) in cells, to investigate the early stages of MET activation. Our simulations show that InlB binding stabilizes MET in a conformation that promotes dimer formation. smFRET reveals that the in situ dimer structure closely resembles one of two previously published crystal structures, though with key differences. This study refines our understanding of MET activation and provides a methodological framework for studying other plasma membrane receptors. © 2024. The Author(s).
Erscheinungsjahr
2024
Zeitschriftentitel
Nature Communications
Band
15
Ausgabe
1
Art.-Nr.
9486
eISSN
2041-1723
Page URI
https://pub.uni-bielefeld.de/record/2994436
Zitieren
Li Y, Arghittu SM, Dietz MS, et al. Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells. Nature Communications . 2024;15(1): 9486.
Li, Y., Arghittu, S. M., Dietz, M. S., Hella, G. J., Haße, D., Ferraris, D. M., Freund, P., et al. (2024). Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells. Nature Communications , 15(1), 9486. https://doi.org/10.1038/s41467-024-53772-7
Li, Yunqing, Arghittu, Serena M., Dietz, Marina S., Hella, Gabriel J., Haße, Daniel, Ferraris, Davide M., Freund, Petra, et al. 2024. “Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells”. Nature Communications 15 (1): 9486.
Li, Y., Arghittu, S. M., Dietz, M. S., Hella, G. J., Haße, D., Ferraris, D. M., Freund, P., Barth, H. - D., Iamele, L., de Jonge, H., et al. (2024). Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells. Nature Communications 15:9486.
Li, Y., et al., 2024. Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells. Nature Communications , 15(1): 9486.
Y. Li, et al., “Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells”, Nature Communications , vol. 15, 2024, : 9486.
Li, Y., Arghittu, S.M., Dietz, M.S., Hella, G.J., Haße, D., Ferraris, D.M., Freund, P., Barth, H.-D., Iamele, L., de Jonge, H., Niemann, H., Covino, R., Heilemann, M.: Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells. Nature Communications . 15, : 9486 (2024).
Li, Yunqing, Arghittu, Serena M., Dietz, Marina S., Hella, Gabriel J., Haße, Daniel, Ferraris, Davide M., Freund, Petra, Barth, Hans-Dieter, Iamele, Luisa, de Jonge, Hugo, Niemann, Hartmut, Covino, Roberto, and Heilemann, Mike. “Single-molecule imaging and molecular dynamics simulations reveal early activation of the MET receptor in cells”. Nature Communications 15.1 (2024): 9486.
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