NUDT6 and NUDT9, two mitochondrial members of the NUDIX family, have distinct hydrolysis activities - Archive ouverte HAL
Article Dans Une Revue Mitochondrion Année : 2023

NUDT6 and NUDT9, two mitochondrial members of the NUDIX family, have distinct hydrolysis activities

Louis Debar
Layal Ishak
  • Fonction : Auteur
Amandine Moretton
Saber Anoosheh
Louise Jenninger
Anders Hofer
Geraldine Farge

Résumé

The 22 members of the NUDIX (NUcleoside DIphosphate linked to another moiety, X) hydrolase superfamily can hydrolyze a variety of phosphorylated molecules including (d)NTPs and their oxidized forms, nucleotide sugars, capped mRNAs and dinucleotide coenzymes such as NADH and FADH. Beside this broad range of enzymatic substrates, the NUDIX proteins can also be found in different cellular compartments, mainly in the nucleus and in the cytosol, but also in the peroxisome and in the mitochondria. Here we studied two members of the family, NUDT6 and NUDT9. We showed that NUDT6 is expressed in human cells and localizes exclusively to mitochondria and we confirmed that NUDT9 has a mitochondrial localization. To elucidate their potential role within this organelle, we investigated the functional consequences at the mitochondrial level of NUDT6-and NUDT9deficiency and found that the depletion of either of the two proteins results in an increased activity of the respiratory chain and an alteration of the mitochondrial respiratory chain complexes expression. We demonstrated that NUDT6 and NUDT9 have distinct substrate specificity in vitro, which is dependent on the cofactor used. They can both hydrolyze a large range of low molecular weight compounds such as NAD + (H), FAD and ADPR, but NUDT6 is mainly active towards NADH, while NUDT9 displays a higher activity towards ADPR.
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Dates et versions

hal-04456296 , version 1 (14-02-2024)

Identifiants

Citer

Louis Debar, Layal Ishak, Amandine Moretton, Saber Anoosheh, Frederic Morel, et al.. NUDT6 and NUDT9, two mitochondrial members of the NUDIX family, have distinct hydrolysis activities. Mitochondrion, 2023, 71, pp.93-103. ⟨10.1016/j.mito.2023.06.003⟩. ⟨hal-04456296⟩
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