Cell Biology and Metabolism Program, Eunice Kennedy Shriver National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD 20892, USA.
Proc Natl Acad Sci U S A. 2013 Apr 30;110(18):7288-93. doi: 10.1073/pnas.1304285110. Epub 2013 Apr 15.
Cell polarization requires increased cellular energy and metabolic output, but how these energetic demands are met by polarizing cells is unclear. To address these issues, we investigated the roles of mitochondrial bioenergetics and autophagy during cell polarization of hepatocytes cultured in a collagen sandwich system. We found that as the hepatocytes begin to polarize, they use oxidative phosphorylation to raise their ATP levels, and this energy production is required for polarization. After the cells are polarized, the hepatocytes shift to become more dependent on glycolysis to produce ATP. Along with this central reliance on oxidative phosphorylation as the main source of ATP production in polarizing cultures, several other metabolic processes are reprogrammed during the time course of polarization. As the cells polarize, mitochondria elongate and mitochondrial membrane potential increases. In addition, lipid droplet abundance decreases over time. These findings suggest that polarizing cells are reliant on fatty acid oxidation, which is supported by pharmacologic inhibition of β-oxidation by etomoxir. Finally, autophagy is up-regulated during cell polarization, with inhibition of autophagy retarding cell polarization. Taken together, our results describe a metabolic shift involving a number of coordinated metabolic pathways that ultimately serve to increase energy production during cell polarization.
细胞极化需要增加细胞能量和代谢输出,但极化细胞如何满足这些能量需求尚不清楚。为了解决这些问题,我们研究了线粒体生物能学和自噬在胶原夹层系统中培养的肝细胞极化过程中的作用。我们发现,当肝细胞开始极化时,它们利用氧化磷酸化来提高 ATP 水平,而这种能量产生是极化所必需的。细胞极化后,肝细胞转而更依赖于糖酵解来产生 ATP。随着极化培养中氧化磷酸化作为 ATP 产生的主要来源的这种核心依赖性,在极化过程的时间过程中,其他几种代谢过程也被重新编程。随着细胞极化,线粒体伸长,线粒体膜电位增加。此外,随着时间的推移,脂滴的丰度减少。这些发现表明,极化细胞依赖于脂肪酸氧化,这得到了用 etomoxir 抑制β-氧化的药理学抑制的支持。最后,自噬在细胞极化过程中被上调,自噬的抑制会延迟细胞极化。总之,我们的结果描述了一种涉及许多协调代谢途径的代谢转变,这些途径最终有助于增加细胞极化过程中的能量产生。