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Decoding the principle of cell-fate determination for its reverse control

Jong‐Hoon Lee, Namhee Kim, Kwang‐Hyun Cho

2024npj Systems Biology and Applications13 citationsDOIOpen Access PDF

Abstract

Understanding and manipulating cell fate determination is pivotal in biology. Cell fate is determined by intricate and nonlinear interactions among molecules, making mathematical model-based quantitative analysis indispensable for its elucidation. Nevertheless, obtaining the essential dynamic experimental data for model development has been a significant obstacle. However, recent advancements in large-scale omics data technology are providing the necessary foundation for developing such models. Based on accumulated experimental evidence, we can postulate that cell fate is governed by a limited number of core regulatory circuits. Following this concept, we present a conceptual control framework that leverages single-cell RNA-seq data for dynamic molecular regulatory network modeling, aiming to identify and manipulate core regulatory circuits and their master regulators to drive desired cellular state transitions. We illustrate the proposed framework by applying it to the reversion of lung cancer cell states, although it is more broadly applicable to understanding and controlling a wide range of cell-fate determination processes.

Topics & Concepts

Cell fate determinationComputer scienceDecoding methodsSystems biologyComputational biologyBiologyAlgorithmTranscription factorBiochemistryGeneSingle-cell and spatial transcriptomicsGene Regulatory Network AnalysisBioinformatics and Genomic Networks