Abstract

The oxygenase domain of inducible NO synthase (residues 1-498, iNOSox) is the enzyme's catalytic center. Its active form is a homodimer that contains heme and tetrahydrobiopterin (H4biopterin) and binds l-arginine [Ghosh, D. K., & Stuehr, D. J. (1995) Biochemistry 34, 801]. To help identify protein residues involved in prosthetic group and dimeric interaction, we expressed H4biopterin-free iNOSox in Escherichia coli. The iNOSox was 80% dimeric but contained a low-spin heme iron that bound DTT as a sixth ligand. The iNOSox bound H4biopterin or L-arginine with high affinity, which displaced DTT from the heme and caused spectral changes consistent with a closing up of the heme pocket. The H4biopterin-replete iNOSox could catalyze conversion of Nomega-hydroxyarginine to citrulline and NO in a H2O2-supported reaction. Limited trypsinolysis of the H4biopterin-free iNOSox dimer cut the protein at a single site in its N-terminal region (K117). H4biopterin protected against the cleavage whereas l-arginine did not. The resulting 40 kDa protein contained thiol-ligated low-spin heme, was monomeric, catalytically inactive, showed no capacity to bind H4biopterin or l-arginine, and did not dimerize when provided with these molecules, indicating that residues 1-117 were important for iNOSox dimerization and H4biopterin/l-arginine interaction. A deletion mutant missing residues 1-114 was partially dimeric but otherwise identical to the 40 kDa protein regarding its spectral and catalytic properties and inability to respond to l-arginine and H4biopterin, whereas a deletion mutant missing residues 1-65 was equivalent to wild-type iNOSox, narrowing the region of importance to amino acids 66-114. Mutation of a conserved cysteine in this region (C109A) decreased H4biopterin affinity without compromising iNOSox dimeric structure, L-arginine binding, or catalytic function. These results suggest that residues 66-114 of iNOSox are involved in productive H4biopterin interaction and subunit dimerization. H4biopterin binding appears to stabilize the protein structure in this region, and through doing so activates iNOS for NO synthesis.

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