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Unidirectional and phase-gated signaling synchronizes murine presomitic mesoderm cells

Grégory Roth, Georgios Misailidis, Maria Pappa, Jacqueline Ferralli, Charisios D. Tsiairis

2023Developmental Cell11 citationsDOIOpen Access PDF

Abstract

Oscillator systems achieve synchronization when oscillators are coupled. The presomitic mesoderm is a system of cellular oscillators, where coordinated genetic activity is necessary for proper periodic generation of somites. While Notch signaling is required for the synchronization of these cells, it is unclear what information the cells exchange and how they react to this information to align their oscillatory pace with that of their neighbors. Combining mathematical modeling and experimental data, we found that interaction between murine presomitic mesoderm cells is controlled by a phase-gated and unidirectional coupling mechanism and results in deceleration of their oscillation pace upon Notch signaling. This mechanism predicts that isolated populations of well-mixed cells synchronize, revealing a stereotypical synchronization in the mouse PSM and contradicting expectations from previously applied theoretical approaches. Collectively, our theoretical and experimental findings reveal the underlying coupling mechanisms of the presomitic mesoderm cells and provide a framework to quantitatively characterize their synchronization.

Topics & Concepts

Paraxial mesodermBiologyMesodermSynchronization (alternating current)Coupling (piping)Cell biologyOscillation (cell signaling)Mechanism (biology)Embryonic stem cellPhysicsGeneticsTopology (electrical circuits)GeneMathematicsMechanical engineeringEngineeringCombinatoricsQuantum mechanicsNonlinear Dynamics and Pattern FormationPlant Molecular Biology ResearchPlant and Biological Electrophysiology Studies
Unidirectional and phase-gated signaling synchronizes murine presomitic mesoderm cells | Litcius