NarE is an arginine-specific mono-ADPribosyltransferase identified in Neisseria meningitidis that requires the presence of iron in a structured cluster for its enzymatic activities. In this study, we show that NarE can perform auto-ADP-ribosylation. This automodification occurred in a time- and NADconcentration- dependent manner; was inhibited by novobiocin, an ADP-ribosyltransferase inhibitor; and did not occur when NarE was heat inactivated. No reduction in incorporation was evidenced in the presence of high concentrations of ATP, GTP, ADP-ribose, or nicotinamide, which inhibits NAD-glycohydrolase, impeding the formation of free ADP-ribose. Based on the electrophoretic profile of NarE on auto-ADP-ribosylation and on the results of mutagenesis and mass spectrometry analysis, the auto-ADP-ribosylation appeared to be restricted to the addition of a single ADP-ribose. Chemical stability experiments showed that the ADP-ribosyl linkage was sensitive to hydroxylamine, which breaks ADP-ribose-arginine bonds. Sitedirected mutagenesis suggested that the auto-ADP-ribosylation site occurred preferentially on the R7 residue, which is located in the region I of the ADP-ribosyltransferase family. After auto-ADP-ribosylation, NarE showed a reduction in ADP-ribosyltransferase activity, while NAD-glycohydrolase activity was increased. Overall, our findings provide evidence for a novel intramolecular mechanism used by NarE to regulate its enzymatic activities.—Picchianti, M., Del Vecchio, M., Di Marcello, F., Biagini, M., Veggi, D., Norais N., Rappuoli, R., Pizza, M., Balducci, E. Auto ADP-ribosylation of NarE, a Neisseria meningitidis ADP-ribosyltransferase, regulates its catalytic activities. FASEB J.

Auto ADP-ribosylation of NarE, a Neisseria meningitidis ADP-ribosyltransferase, regulates its catalytic activities

BALDUCCI, Enrico
2013-01-01

Abstract

NarE is an arginine-specific mono-ADPribosyltransferase identified in Neisseria meningitidis that requires the presence of iron in a structured cluster for its enzymatic activities. In this study, we show that NarE can perform auto-ADP-ribosylation. This automodification occurred in a time- and NADconcentration- dependent manner; was inhibited by novobiocin, an ADP-ribosyltransferase inhibitor; and did not occur when NarE was heat inactivated. No reduction in incorporation was evidenced in the presence of high concentrations of ATP, GTP, ADP-ribose, or nicotinamide, which inhibits NAD-glycohydrolase, impeding the formation of free ADP-ribose. Based on the electrophoretic profile of NarE on auto-ADP-ribosylation and on the results of mutagenesis and mass spectrometry analysis, the auto-ADP-ribosylation appeared to be restricted to the addition of a single ADP-ribose. Chemical stability experiments showed that the ADP-ribosyl linkage was sensitive to hydroxylamine, which breaks ADP-ribose-arginine bonds. Sitedirected mutagenesis suggested that the auto-ADP-ribosylation site occurred preferentially on the R7 residue, which is located in the region I of the ADP-ribosyltransferase family. After auto-ADP-ribosylation, NarE showed a reduction in ADP-ribosyltransferase activity, while NAD-glycohydrolase activity was increased. Overall, our findings provide evidence for a novel intramolecular mechanism used by NarE to regulate its enzymatic activities.—Picchianti, M., Del Vecchio, M., Di Marcello, F., Biagini, M., Veggi, D., Norais N., Rappuoli, R., Pizza, M., Balducci, E. Auto ADP-ribosylation of NarE, a Neisseria meningitidis ADP-ribosyltransferase, regulates its catalytic activities. FASEB J.
2013
262
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/324782
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