Cultured Primary Turtle Hepatocytes: A Cellular Model for The Study of Temperature and Anoxia.

IF 5 2区 生物学 Q2 CELL BIOLOGY
Alexander M Myrka, Ryan Frost, Domenic Distefano, Sergey V Plotnikov, Leslie T Buck
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Abstract

Turtle hepatocytes are a non-excitable model for metabolic depression during low-temperature and/or anoxic overwintering conditions. Cytoskeletal structure and mitochondrial distribution are continuously modified in cells, and we hypothesized that metabolic depression would inhibit such processes as cell attachment and spreading and promote withdrawal of cell protrusions and peripheral mitochondria. After developing a methodology for culturing painted turtle hepatocytes, maintenance of cell attachment after a media change, and 2D area, were used as indicators of structural rearrangement and spreading/volume. These were measured after incubating cells at varying temperatures and with or without the inclusion of cyanide (chemical proxy for anoxia). Experiments were performed using cells from 22°C- or 5°C-acclimated turtles. Live-cell imaging was used to monitor the effect of cyanide exposure on distribution of mitochondria. We also acclimated cultured cells from 22°C-acclimated turtles to 4°C in vitro and scored withdrawal of protrusions. Only cells isolated from 5°C-acclimated turtles and incubated at 4°C had reduced attachment to fibronectin substrate, but cyanide exposure had no effect. These cells also had a 24% smaller 2D area than those from 22°C-acclimated turtles. There was no change in mitochondrial distribution during cyanide perfusion. Finally, 4°C acclimation in vitro resulted in withdrawal of protrusions over 14 days. Taken together with the results from cells acclimated to low temperature in vivo, this suggests inhibition of structural rearrangement and protrusion stability by low temperature acclimation, but not cyanide exposure. Our cultured primary hepatocyte system will facilitate further study of the role of structural dynamics in reversible metabolic depression.

培养的原代海龟肝细胞:研究温度和缺氧的细胞模型
乌龟肝细胞是低温和/或缺氧越冬条件下代谢抑制的非兴奋模型。细胞内的细胞骨架结构和线粒体分布会不断改变,我们假设代谢抑制会抑制细胞附着和扩散等过程,并促进细胞突起和外周线粒体的退出。在开发出培养彩龟肝细胞的方法后,我们将培养基更换后细胞附着的维持情况和二维面积作为结构重排和扩散/体积的指标。这些指标是在不同温度下培养细胞以及加入或不加入氰化物(缺氧的化学代用品)后测量的。实验使用 22°C 或 5°C 恒温条件下的海龟细胞进行。活细胞成像用于监测氰化物暴露对线粒体分布的影响。我们还在体外将 22°C-acclimated海龟的细胞培养至 4°C,并对突起的退出进行评分。只有从5°C驯化的海龟身上分离出来并在4°C下培养的细胞对纤维粘连蛋白基质的附着力降低,但接触氰化物没有影响。这些细胞的 2D 面积也比 22°C 气候条件下的海龟细胞小 24%。在氰化物灌注过程中,线粒体的分布没有变化。最后,4°C体外驯化导致突起在14天内消失。结合体内低温适应细胞的结果,这表明低温适应抑制了结构重排和突起的稳定性,而氰化物暴露则没有。我们培养的原代肝细胞系统将有助于进一步研究结构动力学在可逆性代谢抑制中的作用。
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来源期刊
CiteScore
9.10
自引率
1.80%
发文量
252
审稿时长
1 months
期刊介绍: The American Journal of Physiology-Cell Physiology is dedicated to innovative approaches to the study of cell and molecular physiology. Contributions that use cellular and molecular approaches to shed light on mechanisms of physiological control at higher levels of organization also appear regularly. Manuscripts dealing with the structure and function of cell membranes, contractile systems, cellular organelles, and membrane channels, transporters, and pumps are encouraged. Studies dealing with integrated regulation of cellular function, including mechanisms of signal transduction, development, gene expression, cell-to-cell interactions, and the cell physiology of pathophysiological states, are also eagerly sought. Interdisciplinary studies that apply the approaches of biochemistry, biophysics, molecular biology, morphology, and immunology to the determination of new principles in cell physiology are especially welcome.
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