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The Regulatory Role of Key Metabolites in the Control of Cell Signaling

Riccardo Milanesi, Paola Coccetti, Farida Tripodi

2020Biomolecules50 citationsDOIOpen Access PDF

Abstract

Robust biological systems are able to adapt to internal and environmental perturbations. This is ensured by a thick crosstalk between metabolism and signal transduction pathways, through which cell cycle progression, cell metabolism and growth are coordinated. Although several reports describe the control of cell signaling on metabolism (mainly through transcriptional regulation and post-translational modifications), much fewer information is available on the role of metabolism in the regulation of signal transduction. Protein-metabolite interactions (PMIs) result in the modification of the protein activity due to a conformational change associated with the binding of a small molecule. An increasing amount of evidences highlight the role of metabolites of the central metabolism in the control of the activity of key signaling proteins in different eukaryotic systems. Here we review the known PMIs between primary metabolites and proteins, through which metabolism affects signal transduction pathways controlled by the conserved kinases Snf1/AMPK, Ras/PKA and TORC1. Interestingly, PMIs influence also the mitochondrial retrograde response (RTG) and calcium signaling, clearly demonstrating that the range of this phenomenon is not limited to signaling pathways related to metabolism.

Topics & Concepts

Signal transductionCrosstalkCell biologyCell metabolismMetabolismBiologyAMPKCell signalingMetabolic pathwayKinaseProtein kinase ABiochemistryPhysicsOpticsMetabolism, Diabetes, and CancerPlant Gene Expression AnalysisProtein Kinase Regulation and GTPase Signaling