Feedback in the β-catenin destruction complex imparts bistability and cellular memory

Mary Jo Cantoria; Elaheh Alizadeh; Janani Ravi; Reeba P. Varghese; Nawat Bunnag; Kelvin W. Pond; Arminja N. Kettenbach; Yashi Ahmed; Andrew L. Paek; John J. Tyson; Konstantin Doubrovinski; Ethan Lee; Curtis A. Thorne

doi:10.1073/pnas.2208787120

Feedback in the β-catenin destruction complex imparts bistability and cellular memory

Mary Jo Cantoria, Elaheh Alizadeh, Janani Ravi, Reeba P. Varghese, Nawat Bunnag, Kelvin W. Pond, Arminja N. Kettenbach, Yashi Ahmed, Andrew L. Paek, John J. Tyson, Konstantin Doubrovinski, Ethan Lee, Curtis A. Thorne

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

4 Scopus citations

Abstract

Wnt ligands are considered classical morphogens, for which the strength of the cellular response is proportional to the concentration of the ligand. Herein, we show an emergent property of bistability arising from feedback among the Wnt destruction complex proteins that target the key transcriptional co-activator β-catenin for degradation. Using biochemical reconstitution, we identified positive feedback between the scaffold protein Axin and the kinase glycogen synthase kinase 3 (GSK3). Theoretical modeling of this feedback between Axin and GSK3 suggested that the activity of the destruction complex exhibits bistable behavior. We experimentally confirmed these predictions by demonstrating that cellular cytoplasmic β-catenin concentrations exhibit an “all-or-none” response with sustained memory (hysteresis) of the signaling input. This bistable behavior was transformed into a graded response and memory was lost through inhibition of GSK3. These findings provide a mechanism for establishing decisive, switch-like cellular response and memory upon Wnt pathway stimulation.

Original language	English (US)
Article number	e2208787120
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	120
Issue number	2
DOIs	https://doi.org/10.1073/pnas.2208787120
State	Published - Jan 10 2023

Keywords

Wnt signaling
bistability
signal transduction

ASJC Scopus subject areas

General

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10.1073/pnas.2208787120

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Cantoria, M. J., Alizadeh, E., Ravi, J., Varghese, R. P., Bunnag, N., Pond, K. W., Kettenbach, A. N., Ahmed, Y., Paek, A. L., Tyson, J. J., Doubrovinski, K., Lee, E., & Thorne, C. A. (2023). Feedback in the β-catenin destruction complex imparts bistability and cellular memory. Proceedings of the National Academy of Sciences of the United States of America, 120(2), Article e2208787120. https://doi.org/10.1073/pnas.2208787120

Cantoria, MJ, Alizadeh, E, Ravi, J, Varghese, RP, Bunnag, N, Pond, KW, Kettenbach, AN, Ahmed, Y, Paek, AL, Tyson, JJ, Doubrovinski, K, Lee, E & Thorne, CA 2023, 'Feedback in the β-catenin destruction complex imparts bistability and cellular memory', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 2, e2208787120. https://doi.org/10.1073/pnas.2208787120

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abstract = "Wnt ligands are considered classical morphogens, for which the strength of the cellular response is proportional to the concentration of the ligand. Herein, we show an emergent property of bistability arising from feedback among the Wnt destruction complex proteins that target the key transcriptional co-activator β-catenin for degradation. Using biochemical reconstitution, we identified positive feedback between the scaffold protein Axin and the kinase glycogen synthase kinase 3 (GSK3). Theoretical modeling of this feedback between Axin and GSK3 suggested that the activity of the destruction complex exhibits bistable behavior. We experimentally confirmed these predictions by demonstrating that cellular cytoplasmic β-catenin concentrations exhibit an “all-or-none” response with sustained memory (hysteresis) of the signaling input. This bistable behavior was transformed into a graded response and memory was lost through inhibition of GSK3. These findings provide a mechanism for establishing decisive, switch-like cellular response and memory upon Wnt pathway stimulation.",

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AU - Bunnag, Nawat

AU - Pond, Kelvin W.

AU - Kettenbach, Arminja N.

AU - Ahmed, Yashi

AU - Paek, Andrew L.

AU - Tyson, John J.

AU - Doubrovinski, Konstantin

AU - Lee, Ethan

AU - Thorne, Curtis A.

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N2 - Wnt ligands are considered classical morphogens, for which the strength of the cellular response is proportional to the concentration of the ligand. Herein, we show an emergent property of bistability arising from feedback among the Wnt destruction complex proteins that target the key transcriptional co-activator β-catenin for degradation. Using biochemical reconstitution, we identified positive feedback between the scaffold protein Axin and the kinase glycogen synthase kinase 3 (GSK3). Theoretical modeling of this feedback between Axin and GSK3 suggested that the activity of the destruction complex exhibits bistable behavior. We experimentally confirmed these predictions by demonstrating that cellular cytoplasmic β-catenin concentrations exhibit an “all-or-none” response with sustained memory (hysteresis) of the signaling input. This bistable behavior was transformed into a graded response and memory was lost through inhibition of GSK3. These findings provide a mechanism for establishing decisive, switch-like cellular response and memory upon Wnt pathway stimulation.

AB - Wnt ligands are considered classical morphogens, for which the strength of the cellular response is proportional to the concentration of the ligand. Herein, we show an emergent property of bistability arising from feedback among the Wnt destruction complex proteins that target the key transcriptional co-activator β-catenin for degradation. Using biochemical reconstitution, we identified positive feedback between the scaffold protein Axin and the kinase glycogen synthase kinase 3 (GSK3). Theoretical modeling of this feedback between Axin and GSK3 suggested that the activity of the destruction complex exhibits bistable behavior. We experimentally confirmed these predictions by demonstrating that cellular cytoplasmic β-catenin concentrations exhibit an “all-or-none” response with sustained memory (hysteresis) of the signaling input. This bistable behavior was transformed into a graded response and memory was lost through inhibition of GSK3. These findings provide a mechanism for establishing decisive, switch-like cellular response and memory upon Wnt pathway stimulation.

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Feedback in the β-catenin destruction complex imparts bistability and cellular memory

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