Sensing and Regulating Cellular Energy Production

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Title Sensing and Regulating Cellular Energy Production
Creator Rutter, J.
Subject Diffusion of Innovation; Cell Respiration; Fatty Acids; Acetyl Coenzyme A; Monocarboxylic Acid Transporters; Energy Metabolism; Blotting, Western; Mitochondria; Acylation; Organelle Biogenesis; Acyl Carrier Protein; Inspiratory Capacity; Knowledge Discovery
Keyword Diabetes and Metabolism
Image Caption Western blot showing that yeast with impaired production of mitochondrial acetyl-CoA due to loss of the mitochondrial pyruvate carrier (mpc1) have impaired assembly of respiratory complexes.
Description Cells must decide when to expand mitochondrial capacity to accommodate increased energy demands. Rutter, Winge, and colleagues have shown that the ancient mitochondrial fatty acid synthesis system has a profound and unexpected regulatory role in driving mitochondrial biogenesis. The team showed that a potential cause originates from the scaffold protein, Acyl Carrier Protein 1 (ACP1), which functions in the building of fatty acids and also binds and activates a series of proteins required for mitochondrial biogenesis. The binding of proteins related to this biogenesis requires that ACP1 is acylated. ACP1 acylation requires and is rate-limited by the cofactor acetyl-CoA, which acts as the universal fuel for respiration as well as the substrate for fatty acid synthesis. Thus, this system provides an elegant mechanism for sensing and creating an increased respiratory capacity to meet demand. Thus, eukaryotic cells adjust the level of active electron transport chain complexes to match the level of acetyl-CoA "fuel" available.
Relation is Part of 2018
Publisher Spencer S. Eccles Health Sciences Library, University of Utah
Date Digital 2020
Date 2018
Type Image
Format image/jpeg
Rights Management Copyright © 2021, University of Utah, All Rights Reserved
Language eng
ARK ark:/87278/s6np7tg5
References 1.) The mitochondrial acyl carrier protein (ACP) coordinates mitochondrial fatty acid synthesis with iron sulfur cluster biogenesis. Van Vranken JG, Jeong MY, Wei P, Chen YC, Gygi SP, Winge DR, Rutter J. Elife. 2016 Aug;5. pii: e17828. https://pubmed.ncbi.nlm.nih.gov/27540631/ 2.) ACP acylation is an Acetyl-CoA-dependent modification required for electron transport chain assembly. Van Vranken JG, Nowinski SM, Clowers KJ, Jeong MY, Ouyang Y, Berg JA, Gygi JP, Gygi SP, Winge DR, Rutter J. Molecular Cell. 2018 Aug;71(4):567. https://pubmed.ncbi.nlm.nih.gov/30118679/
Setname ehsl_50disc
ID 1589373
Reference URL https://collections.lib.utah.edu/ark:/87278/s6np7tg5