睫状体生理和病理生理中中间血流缺陷表型的定量光学相干断层扫描成像
Quantitative optical coherence tomography imaging of intermediate flow defect phenotypes in ciliary physiology and pathophysiology.
作者信息
Huang Brendan K, Gamm Ute A, Jonas Stephan, Khokha Mustafa K, Choma Michael A
机构信息
Yale University, Department of Biomedical Engineering, 55 Prospect Street, New Haven, Connecticut 06511, United States.
Yale School of Medicine, Department of Diagnostic Radiology, P.O. Box 208043, New Haven, Connecticut 06520, United States.
出版信息
J Biomed Opt. 2015 Mar;20(3):030502. doi: 10.1117/1.JBO.20.3.030502.
Abstract
Cilia-driven fluid flow is a critical yet poorly understood aspect of pulmonary physiology. Here, we demonstrate that optical coherence tomography-based particle tracking velocimetry can be used to quantify subtle variability in cilia-driven flow performance in Xenopus, an important animal model of ciliary biology. Changes in flow performance were quantified in the setting of normal development, as well as in response to three types of perturbations: mechanical (increased fluid viscosity), pharmacological (disrupted serotonin signaling), and genetic (diminished ciliary motor protein expression). Of note, we demonstrate decreased flow secondary to gene knockdown of kif3a, a protein involved in ciliogenesis, as well as a dose-response decrease in flow secondary to knockdown of dnah9, an important ciliary motor protein.
摘要
纤毛驱动的流体流动是肺生理学中一个关键但却知之甚少的方面。在此,我们证明基于光学相干断层扫描的粒子跟踪测速技术可用于量化非洲爪蟾(纤毛生物学的重要动物模型)中纤毛驱动流动性能的细微变化。在正常发育的情况下,以及对三种类型的扰动(机械性的(增加流体粘度)、药理学的(破坏血清素信号传导)和遗传学的(减少纤毛运动蛋白表达))做出反应时,对流动性能的变化进行了量化。值得注意的是,我们证明了由于参与纤毛发生的蛋白质kif3a的基因敲低导致流动减少,以及由于重要的纤毛运动蛋白dnah9的敲低导致流动呈剂量反应性降低。
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