表观遗传修饰介导的细胞型转换动力学

Rongsheng Huang, Qiaojun Situ, Jinzhi Lei
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引用次数: 0

摘要

维持组织稳态需要对干细胞分化进行适当的调控。Waddington景观假设细胞中的基因回路形成不同细胞类型的潜在景观,其中细胞遵循概率景观的吸引子发展成不同的细胞类型。然而,成体干细胞如何在自我更新和分化之间实现微妙的平衡仍不清楚。我们认为,表观遗传状态的随机遗传在干细胞分化中起着关键作用,并提出了由表观遗传修饰诱导的干细胞分化的杂交模型。我们的综合模型集成了基因调控网络、表观遗传状态遗传和细胞再生,涵盖了从转录调控到细胞群体的多尺度动力学。通过模型模拟,我们证明了细胞分裂过程中表观遗传状态的随机遗传可以自发地诱导细胞分化、去分化和转分化。此外,我们研究了干扰表观遗传修饰和引入额外的转录因子对细胞去分化和转分化概率的影响,揭示了细胞重编程的潜在机制。这种\textit{硅}模型为干细胞分化和细胞重编程的复杂机制提供了有价值的见解,并为加强再生医学领域提供了有希望的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamics of cell-type transition mediated by epigenetic modifications
Maintaining tissue homeostasis requires appropriate regulation of stem cell differentiation. The Waddington landscape posits that gene circuits in a cell form a potential landscape of different cell types, wherein cells follow attractors of the probability landscape to develop into distinct cell types. However, how adult stem cells achieve a delicate balance between self-renewal and differentiation remains unclear. We propose that random inheritance of epigenetic states plays a pivotal role in stem cell differentiation and present a hybrid model of stem cell differentiation induced by epigenetic modifications. Our comprehensive model integrates gene regulation networks, epigenetic state inheritance, and cell regeneration, encompassing multi-scale dynamics ranging from transcription regulation to cell population. Through model simulations, we demonstrate that random inheritance of epigenetic states during cell divisions can spontaneously induce cell differentiation, dedifferentiation, and transdifferentiation. Furthermore, we investigate the influences of interfering with epigenetic modifications and introducing additional transcription factors on the probabilities of dedifferentiation and transdifferentiation, revealing the underlying mechanism of cell reprogramming. This \textit{in silico} model provides valuable insights into the intricate mechanism governing stem cell differentiation and cell reprogramming and offers a promising path to enhance the field of regenerative medicine.
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