生物电信号：胚胎发生、再生和癌症的可编程电路。

Bioelectric signaling: Reprogrammable circuits underlying embryogenesis, regeneration, and cancer.

机构信息

Allen Discovery Center at Tufts University, Medford, MA, USA; Wyss Institute for Biologically Inspired Engineering, Harvard University, Boston, MA, USA.

出版信息

Cell. 2021 Apr 15;184(8):1971-1989. doi: 10.1016/j.cell.2021.02.034. Epub 2021 Apr 6.

DOI:10.1016/j.cell.2021.02.034

PMID:33826908

Abstract

How are individual cell behaviors coordinated toward invariant large-scale anatomical outcomes in development and regeneration despite unpredictable perturbations? Endogenous distributions of membrane potentials, produced by ion channels and gap junctions, are present across all tissues. These bioelectrical networks process morphogenetic information that controls gene expression, enabling cell collectives to make decisions about large-scale growth and form. Recent progress in the analysis and computational modeling of developmental bioelectric circuits and channelopathies reveals how cellular collectives cooperate toward organ-level structural order. These advances suggest a roadmap for exploiting bioelectric signaling for interventions addressing developmental disorders, regenerative medicine, cancer reprogramming, and synthetic bioengineering.

摘要

尽管存在不可预测的干扰，但个体细胞的行为如何在发育和再生过程中朝着不变的大规模解剖学结果进行协调？离子通道和缝隙连接产生的膜电位的内部分布存在于所有组织中。这些生物电网络处理形态发生信息，控制基因表达，使细胞集体能够对大规模生长和形态做出决定。最近在发育生物电路和通道病的分析和计算建模方面的进展揭示了细胞集体如何合作以实现器官水平的结构有序性。这些进展为利用生物电信号进行干预提供了一个路线图，以解决发育障碍、再生医学、癌症重编程和合成生物工程等问题。

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生物电信号：胚胎发生、再生和癌症的可编程电路。

Bioelectric signaling: Reprogrammable circuits underlying embryogenesis, regeneration, and cancer.

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