Qin Ni, Zhuoxu Ge, Yizeng Li, Gabriel Shatkin, Jinyu Fu, Anindya Sen, Kaustav Bera, Yuhan Yang, Yichen Wang, Yufei Wu, Ana Carina Nogueira Vasconcelos, Yuqing Yan, Dingchang Lin, Andrew P Feinberg, Konstantinos Konstantopoulos, Sean X Sun
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引用次数: 0
摘要
哺乳动物细胞通过改变跨膜水和离子通量迅速应对环境变化,从而改变细胞体积。肌动蛋白产生的收缩力被认为可以机械地调节细胞体积。然而,我们的研究结果揭示了粘附细胞中的一种不同机制,即肌动蛋白活性的升高会通过与钠-氢交换异构体 1(NHE1)的相互作用增加正常类细胞(NIH 3T3 和其他细胞)的体积。这导致在低渗休克期间,继最初的调节性体积减少之后,出现缓慢的继发性体积增加(SVI)。在机械拉伸过程中,细胞内碱化进一步证实了细胞的积极反应。此外,在 SVI 期间,NHE1 的细胞骨架活化使细胞核变形,导致转录组立即发生变化和 ERK 依赖性生长抑制。值得注意的是,在许多癌细胞系或肌动蛋白活性降低的顺应性基质上的细胞中都不存在 SVI 及其相关变化。因此,在适应环境挑战的过程中,肌动蛋白充当的是感觉元件而不是力发生器。
Cytoskeletal activation of NHE1 regulates mechanosensitive cell volume adaptation and proliferation.
Mammalian cells rapidly respond to environmental changes by altering transmembrane water and ion fluxes, changing cell volume. Contractile forces generated by actomyosin have been proposed to mechanically regulate cell volume. However, our findings reveal a different mechanism in adherent cells, where elevated actomyosin activity increases cell volume in normal-like cells (NIH 3T3 and others) through interaction with the sodium-hydrogen exchanger isoform 1 (NHE1). This leads to a slow secondary volume increase (SVI) following the initial regulatory volume decrease during hypotonic shock. The active cell response is further confirmed by intracellular alkalinization during mechanical stretch. Moreover, cytoskeletal activation of NHE1 during SVI deforms the nucleus, causing immediate transcriptomic changes and ERK-dependent growth inhibition. Notably, SVI and its associated changes are absent in many cancer cell lines or cells on compliant substrates with reduced actomyosin activity. Thus, actomyosin acts as a sensory element rather than a force generator during adaptation to environmental challenges.
期刊介绍:
Cell Reports publishes high-quality research across the life sciences and focuses on new biological insight as its primary criterion for publication. The journal offers three primary article types: Reports, which are shorter single-point articles, research articles, which are longer and provide deeper mechanistic insights, and resources, which highlight significant technical advances or major informational datasets that contribute to biological advances. Reviews covering recent literature in emerging and active fields are also accepted.
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