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Acetylation coordinates the crosstalk between carbon metabolism and ammonium assimilation in Salmonella enterica

Yunwei Sun, Yuebin Zhang, Tingting Zhao, Yi Luan, Ying Wang, Chen Yang, Bo Shen, Xi Huang, Guohui Li, Shi‐Min Zhao, Guoping Zhao, Qijun Wang

2023The EMBO Journal15 citationsDOIOpen Access PDF

Abstract

Enteric bacteria use up to 15% of their cellular energy for ammonium assimilation via glutamine synthetase (GS)/glutamate synthase (GOGAT) and glutamate dehydrogenase (GDH) in response to varying ammonium availability. However, the sensory mechanisms for effective and appropriate coordination between carbon metabolism and ammonium assimilation have not been fully elucidated. Here, we report that in Salmonella enterica, carbon metabolism coordinates the activities of GS/GDH via functionally reversible protein lysine acetylation. Glucose promotes Pat acetyltransferase-mediated acetylation and activation of adenylylated GS. Simultaneously, glucose induces GDH acetylation to inactivate the enzyme by impeding its catalytic centre, which is reversed upon GDH deacetylation by deacetylase CobB. Molecular dynamics (MD) simulations indicate that adenylylation is required for acetylation-dependent activation of GS. We show that acetylation and deacetylation occur within minutes of "glucose shock" to promptly adapt to ammonium/carbon variation and finely balance glutamine/glutamate synthesis. Finally, in a mouse infection model, reduced S. enterica growth caused by the expression of adenylylation-mimetic GS is rescued by acetylation-mimicking mutations. Thus, glucose-driven acetylation integrates signals from ammonium assimilation and carbon metabolism to fine-tune bacterial growth control.

Topics & Concepts

Glutamine synthetaseAcetylationSalmonella entericaBiochemistryAcetyltransferaseBiologyAmmoniumMetabolismAdenylylationGlutamineGlutamate dehydrogenaseEnzymeGlutamate receptorChemistryBiosynthesisEscherichia coliAmino acidGeneReceptorOrganic chemistryAmino Acid Enzymes and MetabolismEnzyme Structure and FunctionBiochemical and Molecular Research
Acetylation coordinates the crosstalk between carbon metabolism and ammonium assimilation in Salmonella enterica | Litcius