Email this article The Role of Mechanical Properties of the Nucleus in Maintaining Tissue Homeostasis
- Authors: Lavrushkina S.V.1, Ovsyannikova N.L.2, Yudina A.S.2, Strelkova O.S.3, Zhironkina O.A.3, Perepelina K.I.4,5, Malashicheva A.B.4,5, Kireev I.I.1,3,6
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Affiliations:
- Department of Biology, Moscow State University
- Department of Bioengineering and Bioinformatics, Moscow State University
- Belozersky Institute of Physico-Chemical Biology, Moscow State University
- Department of Biology, St. Petersburg State University
- Research Laboratory of Molecular Cardiology and Genetics, Almazov National Medical Research Center
- Kulakov National Medical Research Center for Obstetrics, Gynecology and Perinatology
- Issue: Vol 13, No 3 (2019)
- Pages: 237-241
- Section: Article
- URL: https://journals.rcsi.science/1990-519X/article/view/212952
- DOI: https://doi.org/10.1134/S1990519X19030064
- ID: 212952
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Abstract
The rigid skeleton formed by networks of A- and B-type lamins is responsible for maintaining the nucleus shape. Moreover, the change in the ratio of lamin proteins in its composition, apparently, is a key factor determining mechanical properties of the cell nucleus, in particular plasticity. In this paper, the effect of the component composition of the nuclear lamina on the resistance of cells to mechanical stress and on the cell motility was considered. Expression of mutant forms of lamin A is accompanied by changes in the distance between microdomains of lamins within the nuclear membrane, and its increased bubbling relative to wild-type cells and cells overexpressing lamin A is observed. An increased number of deformed nuclei are noted when exposed to osmotic shock. The assessment of the effect of a change in the molecular composition of the nuclear lamina due to an increase (decrease) in expression of lamin A, as well as the introduction of progerin in an experimental wound model, showed that there are no differences under conditions of unlimited space.
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About the authors
S. V. Lavrushkina
Department of Biology, Moscow State University
Author for correspondence.
Email: blodemwold@gmail.com
Russian Federation, Moscow, 119192
N. L. Ovsyannikova
Department of Bioengineering and Bioinformatics, Moscow State University
Email: blodemwold@gmail.com
Russian Federation, Moscow, 119192
A. S. Yudina
Department of Bioengineering and Bioinformatics, Moscow State University
Email: blodemwold@gmail.com
Russian Federation, Moscow, 119192
O. S. Strelkova
Belozersky Institute of Physico-Chemical Biology, Moscow State University
Email: blodemwold@gmail.com
Russian Federation, Moscow, 119234
O. A. Zhironkina
Belozersky Institute of Physico-Chemical Biology, Moscow State University
Email: blodemwold@gmail.com
Russian Federation, Moscow, 119234
K. I. Perepelina
Department of Biology, St. Petersburg State University; Research Laboratory of Molecular Cardiology and Genetics, Almazov National Medical Research Center
Email: blodemwold@gmail.com
Russian Federation, St. Petersburg, 199034; St. Petersburg, 197341
A. B. Malashicheva
Department of Biology, St. Petersburg State University; Research Laboratory of Molecular Cardiology and Genetics, Almazov National Medical Research Center
Email: blodemwold@gmail.com
Russian Federation, St. Petersburg, 199034; St. Petersburg, 197341
I. I. Kireev
Department of Biology, Moscow State University; Belozersky Institute of Physico-Chemical Biology, Moscow State University; Kulakov National Medical Research Center for Obstetrics, Gynecology and Perinatology
Email: blodemwold@gmail.com
Russian Federation, Moscow, 119192; Moscow, 119234; Moscow, 117198
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