Control of SRC Molecular Dynamics Encodes Distinct Cytoskeletal Responses by Specifying Signaling Pathway Usage - Institut Albert Bonniot Accéder directement au contenu
Article Dans Une Revue Journal of Cell Science Année : 2021

Control of SRC Molecular Dynamics Encodes Distinct Cytoskeletal Responses by Specifying Signaling Pathway Usage

Martial Balland
Yohann Couté

Résumé

Upon activation by different transmembrane receptors, the same signaling protein can induce distinct cellular responses. A way to decipher the mechanisms of such pleiotropic signaling activity is to directly manipulate the decision-making activity that supports the selection between distinct cellular responses. We developed an optogenetic probe (optoSRC) to control SRC signaling, an example of a pleiotropic signaling node, and we demonstrated its ability to generate different acto-adhesive structures (lamellipodia or invadosomes) upon distinct spatio-temporal control of SRC kinase activity. The occurrence of each acto-adhesive structure was simply dictated by the dynamics of optoSRC nanoclusters in adhesive sites, which were dependent on the SH3 and Unique domains of the protein. The different decision-making events regulated by optoSRC dynamics induced distinct downstream signaling pathways, which we characterized using time-resolved proteomic and network analyses. Collectively, by manipulating the molecular mobility of SRC kinase activity, these experiments reveal the pleiotropy-encoding mechanism of SRC signaling.

Dates et versions

hal-03605372 , version 1 (11-03-2022)

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Adèle Kerjouan, Cyril Boyault, Christiane Oddou, Edwige Hiriart-Bryant, Alexei Grichine, et al.. Control of SRC Molecular Dynamics Encodes Distinct Cytoskeletal Responses by Specifying Signaling Pathway Usage. Journal of Cell Science, 2021, 134 (2), ⟨10.1242/jcs.254599⟩. ⟨hal-03605372⟩
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