posted on 2024-10-01, 08:42authored byA Zinovyev, M Sadovsky, L Calzone, A Fouché, CS Groeneveld, A Chervov, E Barillot, AN Gorban
Cell cycle is a biological process underlying the existence and propagation of life in time and space. It has been an object for mathematical modeling for long, with several alternative mechanistic modeling principles suggested, describing in more or less details the known molecular mechanisms. Recently, cell cycle has been investigated at single cell level in snapshots of unsynchronized cell populations, exploiting the new methods for transcriptomic and proteomic molecular profiling. This raises a need for simplified semi-phenomenological cell cycle models, in order to formalize the processes underlying the cell cycle, at a higher abstracted level. Here we suggest a modeling framework, recapitulating the most important properties of the cell cycle as a limit trajectory of a dynamical process characterized by several internal states with switches between them. In the simplest form, this leads to a limit cycle trajectory, composed by linear segments in logarithmic coordinates describing some extensive (depending on system size) cell properties. We prove a theorem connecting the effective embedding dimensionality of the cell cycle trajectory with the number of its linear segments. We also develop a simplified kinetic model with piecewise-constant kinetic rates describing the dynamics of lumps of genes involved in S-phase and G2/M phases. We show how the developed cell cycle models can be applied to analyze the available single cell datasets and simulate certain properties of the observed cell cycle trajectories. Based on our model, we can predict with good accuracy the cell line doubling time from the length of cell cycle trajectory.
Funding
Agence Nationale de la Recherche (ANR-19-P3IA-0001)
Ministry of Science and Higher Education of the Russian Federation (Project No. 075-15-2021-634)
individualizedPaediatricCure: Cloud-based virtual-patient models for precision paediatric oncology
Zinovyev A, Sadovsky M, Calzone L, Fouché A, Groeneveld CS, Chervov A, Barillot E, Gorban AN. Modeling Progression of Single Cell Populations Through the Cell Cycle as a Sequence of Switches. Front Mol Biosci. 2022 Feb 1;8:793912. doi: 10.3389/fmolb.2021.793912. PMID: 35178429; PMCID: PMC8846220
Author affiliation
Department of Mathematics, University of Leicester
The original contributions presented in the study are included in the article. The processed scRNA-Seq data used in this study are available from http://doi.org/10.5281/zenodo.5017357. Further inquiries can be directed to the corresponding author.