3zu0
From Proteopedia
Structure of Haemophilus influenzae NAD nucleotidase (NadN)
Structural highlights
Function5NTD_HAEIN Degrades NAD into adenosine and nicotinamide riboside, the latter being subsequently internalized by a specific permease. Also endowed with NAD(P) pyrophosphatase activity. Exhibits a broad substrate specificity, recognizing either mono- or dinucleotide nicotinamides and different adenosine phosphates with a maximal activity on 5'-adenosine monophosphate.[1] Publication Abstract from PubMedHaemophilus influenzae is a major pathogen of the respiratory tract in humans that has developed the capability to exploit host NAD(P) for its pyridine dinucleotide requirement. This strategy is organized around a periplasmic enzyme termed NadN, that plays a central role by degrading NAD into adenine and nicotinamide riboside, the latter being subsequently internalized by a specific permease. We performed a biochemical and structural investigation on H. influenzae NadN that determined the enzyme is a Zn2+-dependent 5'-nucleotidase also endowed with NAD(P) pyrophosphatase activity. A 1.3 A resolution structural analysis revealed a remarkable conformational change that occurs during catalysis between the open and closed forms of the enzyme. NadN showed a broad substrate specificity recognizing either mono or dinucleotide pyridines and different adenosine phosphates with a maximal activity on 5' adenosine monophosphate. Sequence and structural analysis of H. influenzae NadN led us to discover that human CD73 is capable of processing both NAD and NMN, therefore disclosing a possible novel function of human CD73 in systemic NAD metabolism. Our data may prove to be useful for inhibitor design and disclosed unanticipated fascinating evolutionary relationships. The high-resolution crystal structure of periplasmic Haemophilus influenzae NAD nucleotidase reveals a novel enzymatic function of human CD73 related to NAD metabolism.,Garavaglia S, Bruzzone S, Cassani C, Canella L, Allegrone G, Sturla L, Mannino E, Millo E, De Flora A, Rizzi M Biochem J. 2011 Sep 20. PMID:21933152[2] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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