Thomas Alexandre scite author profile

Inosine-5'-monophosphate dehydrogenase (IMPDH) is a rate-limiting enzyme in nucleotide biosynthesis studied as an important therapeutic target and its complex functioning in vivo is still puzzling and debated. Here, we highlight the structural basis for the regulation of IMPDHs by MgATP. Our results demonstrate the essential role of the CBS tandem, conserved among almost all IMPDHs. We found that Pseudomonas aeruginosa IMPDH is an octameric enzyme allosterically regulated by MgATP and showed that this octameric organization is widely conserved in the crystal structures of other IMPDHs. We also demonstrated that human IMPDH1 adopts two types of complementary octamers that can pile up into isolated fibers in the presence of MgATP. The aggregation of such fibers in the autosomal dominant mutant, D226N, could explain the onset of the retinopathy adRP10. Thus, the regulatory CBS modules in IMPDHs are functional and they can either modulate catalysis or macromolecular assembly.

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Two Classes of Bacterial IMPDHs according to Their Quaternary Structures and Catalytic Properties

Alexandre

Rayna

Munier‐Lehmann

2015

PLoS ONE

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Inosine-5′-monophosphate dehydrogenase (IMPDH) occupies a key position in purine nucleotide metabolism. In this study, we have performed the biochemical and physico-chemical characterization of eight bacterial IMPDHs, among which six were totally unexplored. This study led to a classification of bacterial IMPDHs according to the regulation of their catalytic properties and their quaternary structures. Class I IMPDHs are cooperative enzymes for IMP, which are activated by MgATP and are octameric in all tested conditions. On the other hand, class II IMPDHs behave as Michaelis-Menten enzymes for both substrates and are tetramers in their apo state or in the presence of IMP, which are shifted to octamers in the presence of NAD or MgATP. Our work provides new insights into the IMPDH functional regulation and a model for the quaternary structure modulation is proposed.

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Crystallographic studies of two variants ofPseudomonas aeruginosaIMPDH with impaired allosteric regulation

Labesse

Alexandre

Gelin

et al. 2015

Acta Cryst D Biol Crystallogr

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Inosine-5'-monophosphate dehydrogenases (IMPDHs), which are the rate-limiting enzymes in guanosine-nucleotide biosynthesis, are important therapeutic targets. Despite in-depth functional and structural characterizations of various IMPDHs, the role of the Bateman domain containing two CBS motifs remains controversial. Their involvement in the allosteric regulation of Pseudomonas aeruginosa IMPDH by Mg-ATP has recently been reported. To better understand the function of IMPDH and the importance of the CBS motifs, the structure of a variant devoid of these modules (ΔCBS) was solved at high resolution in the apo form and in complex with IMP. In addition, a single amino-acid substitution variant, D199N, was also structurally characterized: the mutation corresponds to the autosomal dominant mutant D226N of human IMPDH1, which is responsible for the onset of the retinopathy adRP10. These new structures shed light onto the possible mechanism of regulation of the IMPDH enzymatic activity. In particular, three conserved loops seem to be key players in this regulation as they connect the tetramer-tetramer interface with the active site and show significant modification upon substrate binding.

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First-in-class allosteric inhibitors of bacterial IMPDHs

Alexandre

Lupan

Helynck

et al. 2019

European Journal of Medicinal Chemistry

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Correction: Two Classes of Bacterial IMPDHs according to Their Quaternary Structures and Catalytic Properties

Alexandre¹,

Raynal²,

Munier‐Lehmann³

2015

PLoS ONE

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IMP-bound form of the DeltaCBS mutant of IMPDH from Pseudomonas aeruginosa

Labesse¹,

Alexandre²,

Gelin³

et al. 2015

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Apo-form of the DeltaCBS mutant of IMPDH from Pseudomonas aeruginosa

Labesse¹,

Alexandre²,

Gelin³

et al. 2015

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Inhibited structure of IMPDH from Pseudomonas aeruginosa

Labesse¹,

Alexandre²,

Haouz³

et al. 2019

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