Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2023.04.13.536717v1?rss=1 Authors: Kang, S. W. S., Cunningham, R. P., Miller, C. B., Cultraro, C. M., Hernandez, J., Jenkins, L. M., Lobanov, A., Cam, M., Porat-Shliom, N. Abstract: In the liver, mitochondria are exposed to different concentrations of nutrients due to their spatial positioning across the periportal (PP) and pericentral (PC) axis. How these mitochondria sense and integrate these signals to respond and maintain homeostasis is not known. Here, we combined intravital microscopy, spatial proteomics, and functional assessment to investigate mitochondrial heterogeneity in the context of liver zonation. We found that PP and PC mitochondria are morphologically and functionally distinct; beta-oxidation and mitophagy were elevated in PP regions, while lipid synthesis was predominant in the PC mitochondria. In addition, comparative phosphoproteomics revealed that mitophagy and lipid synthesis are regulated by phosphorylation in a zonated manner. Furthermore, we demonstrated that acute pharmacological modulation of nutrient sensing through AMPK and mTOR shifted mitochondrial phenotypes in the PP and PC regions of the intact liver. This study highlights the role of protein phosphorylation in mitochondrial structure, function, and overall homeostasis in hepatic metabolic zonation. The findings have important implications for liver physiology and disease. Copy rights belong to original authors. Visit the link for more info Podcast created by Paper Player, LLC