Journal
BIOCHEMISTRY
Volume 53, Issue 25, Pages 4216-4223Publisher
AMER CHEMICAL SOC
DOI: 10.1021/bi5003986
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Funding
- National Institutes of Health [GM57353]
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The nitric oxide synthase (NOS) dimer is stabilized by a Zn2+ ion coordinated to four symmetry-related Cys residues exactly along the dimer 2-fold axis. Each of the two essential tetrahydrobiopterin (H4B) molecules in the dimer interacts directly with the heme, and each H4B molecule is similar to 15 angstrom from the Zn2+. We have determined the crystal structures of the bovine endothelial NOS dirner oxygenase domain bound to three different pterin analogues, which reveal an intimate structural communication between the H4B and Zn2+ sites. The binding of one of these compounds, 6-acetyl-2-amino-7,7-dimethyl-7,8-dihydro-4(3H)-pteridinone (I), to the pterin site and Zn2+ binding are mutually exclusive. Compound 1 both directly and indirectly disrupts hydrogen bonding between key residues in the Zn2+ binding motif, resulting in destabilization of the dimer and a complete disruption of the Zn2+ site. Addition of excess Zn2+ stabilizes the Zn2+ site at the expense of weakened binding of 1. The unique structural features of 1 that disrupt the dimer interface are extra methyl groups that extend into the dimer interface and force a slight opening of the dimer, thus resulting in disruption of the Zn2+ site. These results illustrate a very delicate balance of forces and structure at the dirner interface that must be maintained to properly form the Zn2+, pterin, and substrate binding sites.
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