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细胞体积稳态的降阶模型:在房水生成中的应用。

Reduced-Order Model for Cell Volume Homeostasis: Application to Aqueous Humor Production.

作者信息

Sacco Riccardo, Chiaravalli Greta, Guidoboni Giovanna, Layton Anita, Antman Gal, Shalem Keren Wood, Verticchio Alice, Siesky Brent, Harris Alon

机构信息

Department of Ophthalmology, Icahn School of Medicine at Mount Sinai, 1468 Madison Avenue, Annenberg 22-86, New York, NY 10029, USA.

Dipartimento di Matematica, Politecnico di Milano, Piazza Leonardo da Vinci 32, 20133 Milano, Italy.

出版信息

Math Comput Appl. 2025 Feb;30(1). doi: 10.3390/mca30010013. Epub 2025 Jan 24.

DOI:10.3390/mca30010013
PMID:40656131
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12250091/
Abstract

The ability of a cell to keep its volume constant irrespective of intra- and extracellular conditions is essential for cellular homeostasis and survival. The purpose of this study is to elaborate a theoretical model of cell volume homeostasis and to apply it to a simulation of human aqueous humor (AH) production. The model assumes a cell with a spherical shape and only radial deformation satisfying the property that the cell volume in rest conditions equals that of the cell couplets constituting the ciliary epithelium of the human eye. The cytoplasm is described as a homogeneous mixture containing fluid, ions, and neutral solutes whose evolution is determined by net production mechanisms occurring in the intracellular volume and by water and solute exchange across the membrane. Averaging the balance equations over the cell volume leads to a coupled system of nonlinear ordinary differential equations (ODEs) which are solved using the -method and the Matlab function ode15s. Simulation tests are conducted to characterize the set of parameters corresponding to baseline conditions in AH production. The model is subsequently used to investigate the relative importance of (a) impermeant charged proteins; (b) sodium-potassium (Na+/K+) pumps; (c) carbonic anhydrase (CA) in the AH production process; and (d) intraocular pressure. Results suggest that (a) and (b) play a role; (c) lacks significant weight, at least for low carbon dioxide values; and (d) plays a role for the elevated values of intraocular pressure. Model results describe a higher impact from charged proteins and Na+/K+ ATPase than CA on AH production and cellular volume. The computational virtual laboratory provides a method to further test in vivo experiments and machine learning-based data analysis toward the prevention and cure of ocular diseases such as glaucoma.

摘要

细胞能够在细胞内和细胞外条件不同的情况下保持其体积恒定,这对于细胞内环境稳定和生存至关重要。本研究的目的是建立细胞体积稳态的理论模型,并将其应用于人体房水生成的模拟。该模型假设细胞为球形,且仅发生径向变形,满足静止状态下细胞体积等于构成人眼睫状体上皮的细胞对的体积这一特性。细胞质被描述为一种包含液体、离子和中性溶质的均匀混合物,其演化由细胞内体积中发生的净生成机制以及跨膜的水和溶质交换决定。对细胞体积上的平衡方程进行平均,得到一个非线性常微分方程(ODE)耦合系统,使用 - 方法和Matlab函数ode15s求解该系统。进行模拟测试以表征与房水生成基线条件相对应参数集特征。随后,该模型用于研究(a)不可渗透的带电蛋白质;(b)钠钾(Na+/K+)泵;(c)碳酸酐酶(CA)在房水生成过程中的相对重要性;以及(d)眼内压。结果表明,(a)和(b)起作用;(c)至少在低二氧化碳值时权重不大;(d)在眼内压升高时起作用。模型结果表明,带电蛋白质和Na+/K+ ATP酶对房水生成和细胞体积的影响比CA更大。该计算虚拟实验室提供了一种方法,可进一步测试体内实验以及基于机器学习的数据分析,以预防和治疗青光眼等眼部疾病。

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