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去核细胞中的迁移反应:驱动单细胞生物移动运动的力量。

Migratory responses in enucleated cells: The forces driving the locomotion movement of unicellular organisms.

作者信息

De la Fuente Ildefonso M, Carrasco-Pujante Jose, Fedetz Maria, Bringas Carlos, Pérez-Samartín Alberto, Pérez-Yarza Gorka, Martínez Luis, López José I, Cortes Jesus M, Malaina Iker

机构信息

Department of Mathematics, Faculty of Science and Technology, University of the Basque Country, UPV/EHU, Barrio Sarriena s/n, Leioa 48940, Spain.

Department of Nutrition, CEBAS-CSIC Institute, Espinardo University Campus, Murcia 30100, Spain.

出版信息

PNAS Nexus. 2025 Jul 25;4(8):pgaf232. doi: 10.1093/pnasnexus/pgaf232. eCollection 2025 Aug.

DOI:10.1093/pnasnexus/pgaf232
PMID:40799349
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12341899/
Abstract

Locomotion movements are a fundamental characteristic of a variety of species, including prokaryotic and eukaryotic, that has a high impact on essential physiological and pathological processes. For decades, many different authors have focused on studying specific individual processes and their corresponding biomolecular components involved in cellular locomotion movements. Recently, we have shown that locomotion movements are regulated by integrative self-organized molecular processes operating at the systemic level. Here, to verify that said systemic behavior also exists in extreme critical physiological conditions such as those corresponding to enucleated cells, we carried out an extensive study with 200 enucleated cells (cytoplasts) belonging to the species. The migratory movements of both enucleated and nonenucleated cells (400 in total) have been individually studied in four different scenarios: in the absence of stimuli, under a galvanotactic field, in a chemotactic gradient, and under complex conditions such as simultaneous galvanotactic and chemotactic stimuli. All the experimental trajectories were analyzed using nonlinear quantitative metrics for individual cell trajectories. The results show that both nonenucleated amoebas and cytoplasts display the same type of dynamic migratory patterns. The locomotion displacements of enucleated cells are a consequence of complex self-organized molecular dynamics, modulated at a systemic-cytoplasmic level. We have also quantitatively detected that enucleation clearly affects the correlation times and the intensity of the migratory responses of cytoplasts. The fact that cytoplasts preserved the dynamic properties of their migratory trajectories when compared with nonenucleated cells suggests that nuclear activity has a minor role in regulating the locomotion displacements of cells.

摘要

运动是包括原核生物和真核生物在内的多种物种的基本特征,对基本的生理和病理过程有重大影响。几十年来,许多不同的作者专注于研究细胞运动中特定的个体过程及其相应的生物分子成分。最近,我们发现运动受系统水平上运行的整合自组织分子过程调控。在此,为验证上述系统行为在诸如去核细胞等极端关键生理条件下也存在,我们对属于该物种的200个去核细胞(胞质体)进行了广泛研究。分别在四种不同情况下对去核和未去核细胞(共400个)的迁移运动进行了单独研究:无刺激时、在趋电场上、在趋化梯度中以及在趋电和趋化刺激同时存在等复杂条件下。所有实验轨迹均使用针对单个细胞轨迹的非线性定量指标进行分析。结果表明,未去核的变形虫和胞质体均呈现相同类型的动态迁移模式。去核细胞的运动位移是复杂的自组织分子动力学的结果,在系统细胞质水平上受到调节。我们还定量检测到去核明显影响胞质体迁移反应的相关时间和强度。与未去核细胞相比,胞质体保留了其迁移轨迹的动态特性,这一事实表明核活性在调节细胞运动位移方面作用较小。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6229/12341899/33b31fa594ca/pgaf232f9.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6229/12341899/33b31fa594ca/pgaf232f9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6229/12341899/034604e15844/pgaf232f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6229/12341899/d7ecb594bba4/pgaf232f2.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6229/12341899/33b31fa594ca/pgaf232f9.jpg

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