通过原子力显微镜探测被动和黏附激活的中性粒细胞的流变学
Rheology of passive and adhesion-activated neutrophils probed by atomic force microscopy.
作者信息
Roca-Cusachs Pere, Almendros Isaac, Sunyer Raimon, Gavara Núria, Farré Ramon, Navajas Daniel
机构信息
Unitat de Biofísica i Bioenginyeria, Facultat de Medicina, Universitat de Barcelona-IDIBAPS, 08036 Barcelona, Spain.
出版信息
Biophys J. 2006 Nov 1;91(9):3508-18. doi: 10.1529/biophysj.106.088831. Epub 2006 Aug 4.
The rheology of neutrophils in their passive and activated states plays a key role in determining their function in response to inflammatory stimuli. Atomic force microscopy was used to study neutrophil rheology by measuring the complex shear modulus G*(omega) of passive nonadhered rat neutrophils on poly(HEMA) and neutrophils activated through adhesion to glass. G*(omega) was measured over three frequency decades (0.1-102.4 Hz) by indenting the cells 500 nm with a spherical tip and then applying a 50-nm amplitude multi-frequency signal. G*(omega) of both passive and adhered neutrophils increased as a power law with frequency, with a coupling between elastic (G') and loss (G'') moduli. For passive neutrophils at 1.6 Hz, G' = 380 +/- 121 Pa, whereas G'' was fourfold smaller and the power law coefficient was of x = 1.184. Adhered neutrophils were over twofold stiffer with a lower slope (x = 1.148). This behavior was adequately described by the power law structural damping model but not by liquid droplet and Kelvin models. The increase in stiffness with frequency may modulate neutrophil transit, arrest, and transmigration in vascular microcirculation.
中性粒细胞在其被动和激活状态下的流变学在决定其对炎症刺激的反应功能中起着关键作用。原子力显微镜通过测量被动未粘附的大鼠中性粒细胞在聚(甲基丙烯酸羟乙酯)上以及通过粘附于玻璃而激活的中性粒细胞的复剪切模量G*(ω)来研究中性粒细胞流变学。通过用球形尖端将细胞压入500nm然后施加50nm振幅的多频信号,在三个频率 decade(0.1 - 102.4Hz)上测量G*(ω)。被动和粘附中性粒细胞的G*(ω)均随频率呈幂律增加,弹性模量(G')和损耗模量(G'')之间存在耦合。对于1.6Hz的被动中性粒细胞,G' = 380±121Pa,而G'' 小四倍,幂律系数为x = 1.184。粘附的中性粒细胞刚度高出两倍多,斜率更低(x = 1.148)。幂律结构阻尼模型能充分描述这种行为,但液滴模型和开尔文模型则不能。刚度随频率的增加可能会调节中性粒细胞在血管微循环中的转运、停滞和迁移。
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