Litcius/Paper detail

Different ways to transport ammonia in human and Mycobacterium tuberculosis NAD+ synthetases

W. Chuenchor, Tzanko Doukov, Kai‐Ti Chang, Melissa Resto, Chang‐Soo Yun, Barbara Gerratana

2020Nature Communications21 citationsDOIOpen Access PDF

Abstract

Abstract NAD + synthetase is an essential enzyme of de novo and recycling pathways of NAD + biosynthesis in Mycobacterium tuberculosis but not in humans. This bifunctional enzyme couples the NAD + synthetase and glutaminase activities through an ammonia tunnel but free ammonia is also a substrate. Here we show that the Homo sapiens NAD + synthetase (hsNadE) lacks substrate specificity for glutamine over ammonia and displays a modest activation of the glutaminase domain compared to tbNadE. We report the crystal structures of hsNadE and NAD + synthetase from M. tuberculosis (tbNadE) with synthetase intermediate analogues. Based on the observed exclusive arrangements of the domains and of the intra- or inter-subunit tunnels we propose a model for the inter-domain communication mechanism for the regulation of glutamine-dependent activity and NH 3 transport. The structural and mechanistic comparison herein reported between hsNadE and tbNadE provides also a starting point for future efforts in the development of anti-TB drugs.

Topics & Concepts

NAD+ kinaseGlutamine synthetaseGlutaminaseBiochemistryGlutamineEnzymeGlutamine amidotransferaseMycobacterium tuberculosisSubstrate (aquarium)ChemistryBiologyTuberculosisAmino acidMedicinePathologyEcologyBiochemical and Molecular ResearchEnzyme Structure and FunctionCancer therapeutics and mechanisms