Fluctuating Hydrodynamics Describes Transport in Cellular Aggregates

Subhadip Chakraborti, Vasily Zaburdaev
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Abstract

Biological functionality of cellular aggregates is largely influenced by the activity and displacements of individual constituent cells. From a theoretical perspective this activity can be characterized by hydrodynamic transport coefficients of diffusivity and conductivity. Motivated by the clustering dynamics of bacterial microcolonies we propose a model of active multicellular aggregates and use recently developed macroscopic fluctuation theory to derive a fluctuating hydrodynamics for this model system. Both semi-analytic theory and microscopic simulations show that the hydrodynamic transport coefficients are affected by non-equilibrium microscopic parameters and significantly decrease inside of the clusters. We further find that the Einstein relation connecting the transport coefficients and fluctuations breaks down in the parameter regime where the detailed balance is not satisfied. This study offers valuable tools for experimental investigation of hydrodynamic transport in other systems of cellular aggregates such as tumor spheroids and organoids.
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波动流体力学描述了细胞聚集体的运输过程
细胞聚集体的生物功能在很大程度上受到单个组成细胞的活性和位移的影响。从理论角度看,这种活动可以用扩散和传导的流体动力传输系数来表征。受细菌微菌落集群动力学的启发,我们提出了一个活跃的多细胞聚集体模型,并利用最近发展起来的宏观波动理论推导出这一模型系统的波动流体力学。半解析理论和微观模拟都表明,流体动力传输系数受到非平衡微观参数的影响,并在聚集体内部显著降低。我们进一步发现,在不满足细节平衡的参数体系中,连接传输系数和波动的爱因斯坦关系被打破。这项研究为实验研究肿瘤球体和有机体等其他细胞聚集系统中的流体动力传输提供了宝贵的工具。
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