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Prostacyclin Synthase Active Sites

1997; Elsevier BV; Volume: 272; Issue: 6 Linguagem: Inglês

10.1074/jbc.272.6.3657

1083-351X

Song‐Kun Shyue, Ke‐He Ruan, Lee‐Ho Wang, Kenneth K. Wu,

HIV/AIDS drug development and treatment

Prostacyclin synthase (PGIS), a cytochrome P450 enzyme, catalyzes the biosynthesis of a physiologically important molecule, prostacyclin. In this study we have used a molecular modeling-guided site-directed mutagenesis to predict the active sites in substrate binding pocket and heme environment of PGIS. A three-dimensional model of PGIS was constructed using P450BM-3 crystal structure as the template. Our results indicate that residues Ile67, Val76, Leu384, Pro355, Glu360, and Asp364, which were suggested to be located at one side of lining of the substrate binding pocket, are essential for catalytic activity. This region containing β1-1, β1-2, β1-3, and β1-4 strands is predicted well by the model. At the heme region, Cys441 was confirmed to be the proximal axial ligand of heme iron. The conserved Phe and Arg in P450BM-3 were substituted by Leu112 and Asp439, respectively in PGIS. Alteration of Leu112 to Phe retained the activity, indicating that Leu112 is a functional substitution for Phe. In contrast, mutant Asp439→ Ala exhibited a slight increase in activity. This result implies a difference in the heme region between P450BM-3 and PGIS. Our results also indicate that stability of PGIS expression is not affected by heme site or active site mutations. Prostacyclin synthase (PGIS), a cytochrome P450 enzyme, catalyzes the biosynthesis of a physiologically important molecule, prostacyclin. In this study we have used a molecular modeling-guided site-directed mutagenesis to predict the active sites in substrate binding pocket and heme environment of PGIS. A three-dimensional model of PGIS was constructed using P450BM-3 crystal structure as the template. Our results indicate that residues Ile67, Val76, Leu384, Pro355, Glu360, and Asp364, which were suggested to be located at one side of lining of the substrate binding pocket, are essential for catalytic activity. This region containing β1-1, β1-2, β1-3, and β1-4 strands is predicted well by the model. At the heme region, Cys441 was confirmed to be the proximal axial ligand of heme iron. The conserved Phe and Arg in P450BM-3 were substituted by Leu112 and Asp439, respectively in PGIS. Alteration of Leu112 to Phe retained the activity, indicating that Leu112 is a functional substitution for Phe. In contrast, mutant Asp439→ Ala exhibited a slight increase in activity. This result implies a difference in the heme region between P450BM-3 and PGIS. Our results also indicate that stability of PGIS expression is not affected by heme site or active site mutations.