重新思考细胞核塑形：来自核滴模型的见解

Rethinking nuclear shaping: insights from the nuclear drop model.

作者信息

Dickinson Richard B, Abolghasemzade Samere, Lele Tanmay P

机构信息

Department of Chemical Engineering, University of Florida, 1030 Center Drive, Gainesville, FL, 32611, USA.

Department of Biomedical Engineering, Texas A&M University, 101 Bizzell St., College Station, TX, 77843, USA.

出版信息

Soft Matter. 2024 Oct 2;20(38):7558-7565. doi: 10.1039/d4sm00683f.

DOI:10.1039/d4sm00683f

PMID:39105242

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11446230/

Abstract

Changes in the nuclear shape caused by cellular shape changes are generally assumed to reflect an elastic deformation from a spherical nuclear shape. Recent evidence, however, suggests that the nuclear lamina, which forms the outer nuclear surface together with the nuclear envelope, possesses more area than that of a sphere of the same volume. This excess area manifests as folds/wrinkles in the nuclear surface in rounded cells and allows facile nuclear flattening during cell spreading without any changes in nuclear volume or surface area. When the lamina becomes smooth and taut, it is inextensible, and supports a surface tension. At this point, it is possible to mathematically calculate the limiting nuclear shape purely based on geometric considerations. In this paper, we provide a commentary on the "nuclear drop model" which seeks to integrate the above features. We outline its testable physical properties and explore its biological implications.

摘要

细胞形状变化引起的细胞核形状变化通常被认为反映了从球形核形状的弹性变形。然而，最近的证据表明，与核膜一起形成核外表面的核纤层，其面积比相同体积的球体的面积更大。这种多余的面积在圆形细胞的核表面表现为褶皱，并且在细胞铺展过程中允许细胞核轻松变平，而核体积或表面积没有任何变化。当核纤层变得光滑且紧绷时，它是不可伸展的，并支撑表面张力。此时，可以纯粹基于几何考虑从数学上计算极限核形状。在本文中，我们对旨在整合上述特征的“核滴模型”进行评论。我们概述了其可测试的物理特性，并探讨了其生物学意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c62/11446230/6dd136ec84ab/d4sm00683f-f1.jpg

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重新思考细胞核塑形：来自核滴模型的见解

Rethinking nuclear shaping: insights from the nuclear drop model.

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