ADP-ribose diphosphatase


ADP-ribose diphosphatase

ADP-ribose diphosphatase (EC number|3.6.1.13) is an enzyme that catalyzes a hydrolysis reaction in which water nucleophillicly attacks ADP-ribose to produce AMP and D-ribose 5-phosphate. Enzyme hydrolysis occurs by the breakage of a phosphoanhydride bond and is dependent on Mg2+ ions that are held in complex by the enzyme.

The C-terminal domain of ADP-ribose diphosphatase contains the Nudix sequence, a highly conserved amino acid sequence that is found in over 450 putative proteins in about 90 different species. A part of this sequence known as the Nudix fold is the catalytic part of the sequence. It is a structurally conserved loop-helix-loop motif that creates a scaffold for metal binding and pyrophosphatase chemistry in the enzyme.Gabelli, Sandra B. et. al. “The structure of ADP-ribose pyrophosphatase reveals the structural basis for the versatility of the Nudix family.” Nature Structural Biology, 8: 467-72 (2001).]

ADP-ribose hydrolases in general act as protective agents against excessive intracellular accumulation of ADP-ribose, as high intracellular levels of ADP-ribose can be damaging to the cell. ADP-ribose diphosphatase, in particular, hydrolyzes ADP-ribose into AMP and D-ribose 5-phosphate, both of which are intermediates of central metabolic pathways and therefore are easily reused.Galperin, Michael Y., et. al. "House cleaning, a part of good housekeeping." Molecular Microbiology 59: 5-19 (2006).] Ribeiro, Joao M., et. al. "Human placenta hydrolases active on free ADP-ribose: an ADP-sugar pyrophosphatase and a specific ADP-ribose pyrophosphatase." Biochimica et Biophysica Acta 1526:86-94 (2001).]

Other common names for ADP-ribose diphosphotase include ADP-ribose pyrophosphatase and ADPRase. ADP-ribose is commonly referred to as ADPR.

tructure

ADPRase is a dimer of two identical monomers, each of which contain 209 amino acids. The two monomers are folded into two distinct structural domains and with two equivalent catalytic sites. The C-terminal domain consists of the Nudix sequence mentioned above and the N-terminal domain is primarily involved in dimer stabilization. As noted earlier, the Nudix fold is the catalytic part of the enzyme, but it should also be noted that both domains are involved in the active site and they both help with the attachment and coordination of H20, Mg2+, and the ADP-ribose substrate.

The picture to the right shows the active site of ADPRase in complex with AMPCPR and Mg2+. AMPCPR is a nonhydrolyzable analog of ADP-ribose, and thus functions as an inhibitor of ADPRase. The picture below reveals the first and second Mg2+ ions, which serve to coordinate the attacking water molecule so that it is perfectly in line with the scissile bond (O-P-O bond is 177 degrees) and poised for attack. A glutamate side chain (E162) will deprotonate the water molecule, and then the hydroxide ion will attack nucelophillicly. This occurs when the water molecule is 3.0 angstroms away from the phosphorus molecule it is attacking. By using H2O18, it has been found that the water molecule attacks the adenosyl phosphate. This evidence is a refutation of a previous study that suggested that hydrolysis of ADP-ribose could proceed by nucleophilic attack at either alpha- or beta- phosphate (Gabelli, et. al. 2001). After the water molecule attacks, an intermediate is formed, and then ribose 5-phosphate is kicked off as a leaving group. The third active site Mg2+ ion is used to stabilize the negative charge of the phosphate group as it leaves, and is thus situated perfectly between the two phosphates.Gabelli, Sandra B., et. al. "Mechanism of the Escheirichia coli ADP-ribose pyrophosphatase, a Nudix hydrolase." Biochemistry 41: 9279-9285 (2002).]

When the substrate is bound, the structure of the enzyme differs in shape. With the substrate bound, Loop L9 moves 10 angstroms from its original position in the free enzyme, which forms a tighter turn and brings E162 to its catalytic position, meaning this enzyme cycles between an open (free enzyme) and a closed (substrate-metal complex) conformation. This is important because it prevents nonspecific hydrolysis of other nucleotides. ADPRase is highly specific for ADPR, as it has been shown that its Km for ADPR is lower by at least two orders of magnitude than for other sugar nucleotides.

Mechanism

The hydrolysis of ADPR is catalyzed by E162, which improves the nucleophilicity of the water molecule in the active site by deprotonating it. This water is held perfectly in line with the scissile bond by the first and second magnesium ions. The hydroxide ion then attacks the phosphorus atom on the adenosyl phosphate, creating a trigonal bypyramidal intermediate with a negatively charged oxygen attached to the adenosyl phosphate. The double bond is then reformed, effectively discharging ribose 5-phosphate as a leaving group. The third Mg2+ is used to stabilize the negative charge on the leaving group.

Enzyme Functions

ADP-ribose is an intermediate that is produced during the metabolism of NAD+, mono- or poly-unsaturated proteins, and cyclic-ADP ribose. ADP-ribose is a protein-glycalating agent, and excess levels of ADP-ribose in the cell can cause non-enzymatic ADP-ribosylation. Non-enzymatic ADP-ribosylation can inactivate protein targets that contain nucleotide-binding sites when the adenylate moiety of ADP-ribose binds to them, and it can also interfere with metabolic regulation that occurs via "enzymatic" ADP-ribosylation. For example, actin polymerization is inhibited by non-enzymatic ADP-ribosylation at a Cys residue. Thus, it is believed that ADPRase functions in general as a house-cleaning enzyme to eliminate potentially deleterious ADP-ribose from the cell. [Okuda, Kenji, et. al. "Systematic Characterization of the ADP-Ribose Pyrophosphatase Family in the Cyanobacterium Synechocystis sp. Strain PCC 6803." Journal of Bacteriology 187.14: 4984-4991.]

In the literature, the detoxifying role of ADPRase is directly supported in E. coli cells. But in mammalian cells, there is only an indirect evidence linking ADPRase to a detoxifying role, and this comes from studeies of the very specific rat liver ADPRibase-I by cytotoxic agents. [Dunn, Christopher A., et. al. "Studies on the ADP-ribose Pyrophosphatase Subfamily of the Nudix Hydrolases and Tentative Identification of "trgB", a Gene Associated with Tellurite Resistance." Journal of Biological Chemistry 274.45: 32318-32324 (1999).]

PDB Codes

As of late 2007, 26 structures have been solved for this class of enzymes, with PDB accession codes PDB link|1G0S, PDB link|1G9Q, PDB link|1GA7, PDB link|1KHZ, PDB link|1MK1, PDB link|1MP2, PDB link|1MQE, PDB link|1MQW, PDB link|1MR2, PDB link|1Q33, PDB link|1QVJ, PDB link|1V8I, PDB link|1V8L, PDB link|1V8M, PDB link|1V8N, PDB link|1V8R, PDB link|1V8S, PDB link|1V8T, PDB link|1V8U, PDB link|1V8V, PDB link|1V8W, PDB link|1V8Y, PDB link|1VIQ, PDB link|2DSB, PDB link|2DSC, and PDB link|2DSD.

References

Molecular graphics images were produced using the UCSF Chimera package from the Resource for Biocomputing, Visualization, and Informatics at the University of California, San Francisco (supported by NIH P41 RR-01081). [http://www.cgl.ucsf.edu/chimera/]

External links

::"The CAS registry number for this enzyme class is CAS registry|9024-83-3."

Gene Ontology (GO) codes


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