Masako Ishigooka scite author profile

Most microsomal P450s have a conserved "threonine cluster" composed of three Thrs (Thr319, Thr321, Thr322 for P450d) at a putative distal site. An ionic amino acid at 318 is also well conserved as Glu or Asp for most P450s. To understand the role of these conserved polar amino acids at the putative distal site in the catalytic function of microsomal P450, we studied how mutations at this site of P450d influence the activation of molecular oxygen in the reconstituted system. Catalytic activity (0.02 min-1) toward 7-ethoxycoumarin of the Glu318Ala mutant of P450d was just 6% of that (0.33 min-1) of the wild type, while those of Glu318Asp, Thr319Ala, and Thr322Ala were comparable to or even higher than that of the wild type. Consumption rates of O2 and formation rates of H2O2 of those mutants varied in accord with the catalytic activities. Especially, the efficiency (0.5%) of incorporated oxygen atom to the substrate versus produced H2O2 for the Glu318Ala mutant was much lower than that (3.7%) of the wild type, while that (58.8%) for the mutant Glu318Asp was 16-fold higher than that of the wild type. In addition, the autoxidation [Fe(II)---- Fe(III)] rate (0.074 s-1) of the Glu318Ala mutant was much lower than those (0.374-0.803 s-1) of the wild type and other mutants. Thus, we strongly suggest that Glu318 plays an important role in the catalytic function toward 7-ethoxycoumarin of microsomal P450d.

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Role of Glu318 and Thr319 in the catalytic function of cytochrome P450 _d (P4501A2): effects of mutations on the methanol hydroxylation

Hiroya

Ishigooka

Shimizu

et al. 1992

FASEB j.

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Polar amino acids in the (putative) distal site are well conserved in P450s. For example, Glu318 for P450d is well conserved as either Glu or Asp for P450s, and Thr319 for P450d is also conserved for P450s. We have studied how mutations at Glu318 and Thr319 of P450d influence the catalytic activity toward methanol associated with the activation of O2. Catalytic activities of Glu318Asp, Glu318Ala, and Thr319Ala mutants toward methanol were 60, 25, and 38%, respectively, compared with that of the wild type. O2 consumption and NADPH oxidation rates of each mutants varied corresponding to the catalytic activities. However, surprisingly, efficiency (16-40%) of incorporated O to the substrate vs. consumed O2 for the Glu318Ala and Thr319Ala mutants were higher than that (9%) of the wild type. In addition, H2O2, which is produced from uncoupling for the wild-type P450d, was not observed for reaction of the Glu318Ala and Thr319Ala mutants. It seemed that consumed O2 was partially reduced to 2 mol of H2O by 4-electron transfer from NADPH for the wild-type and Thr319Ala mutant. However, for the two Glu318 mutants, it appeared that the consumed O2 was not reduced in the same way. It was thus suggested that the conserved Glu318 and Thr319 of P450d are not essential for the activation of O2 in the methanol oxidation. Role of the water molecule or the methanol molecule in the catalytic function was implied.

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Absorption spectral study of cytochrome P450d-phenyl isocyanide complexes: effects of mutations at the putative distal site on the conformational stability

Krainev

Shimizu²,

Ishigooka³

et al. 1991

Biochemistry

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Interactions of phenyl isocyanide (PheNC) with purified engineered cytochrome P450d wild type and putative distal mutants, Glu318Asp and Glu318Ala, were studied with optical absorption spectra. The wild type and the mutant Glu318Asp were purified as the high-spin state, while the mutant Glu318Ala was purified as the oxygen-bound low-spin form. Thus, it is suggested that Glu318 is important to make the appropriate heme environment of P450d. Spectral dissociation constants (0.19-0.39 mM) of the ligand for the ferric mutants were lower than that (0.74 mM) of the wild type. These dissociation constants were changed by adding a substrate, 7-ethoxycoumarin. The reduced wild type-PheNC complex showed a Soret peak at 451 nm, while the reduced mutant-PheNC complexes showed two peaks at 451 and 423 nm. The 451-nm peak of the complexes decreased with the concomitant increase of a new peak at 433 nm at room temperature. Thus, it was suggested that P450d can take two conformationally different forms from the characteristic spectral features. The Soret spectral conversions which followed the first-order kinetics were analyzed by changing the temperature. The activation energy (69 kcal/mol) for the conversion for the wild type was higher than those (37-50 kcal/mol) for the mutants. The activation energy for the wild type further increased (by 55%) by adding the substrate, while those for the mutants were essentially unchanged by adding the substrate. We discuss the important role of Glu318 at the putative distal site of P450d in the packing or the conformational stability of the putative distal site of the P450d molecule.

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Chiral recognition at cytochrome P450 1A2 active site: Effects of mutations at the putative distal site on the bindings of asymmetrical axial ligands

Krainev¹,

Shimizu²,

Ishigooka³

et al. 1993

Biochemistry

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Effects of mutations at the putative distal site of cytochrome P450 1A2 on chiral discrimination for binding (R)-(+)- and (S)-(-)-1-(1-naphthyl)ethylamine (ligand I), (R)-(-)- and (S)-(+)-1-cyclohexylethylamine (ligand II), and (R)-(+)- and (S)-(-)-1-(4-pyridyl)ethanol (ligand III) were studied by optical absorption spectra. The wild-type P450 1A2 exhibited different dissociation constants (Kd) for the R- and S-enantiomers of these ligands. The R/S ratios of the Kd values for ligands I and II were 5.2 and 2.9, respectively, and the S/R ratio for ligand III was 6.0. Mutations at the putative distal site, such as Glu318Asp and Glu318Ala, remarkably enhanced the discrimination: the R/S ratio of the Kd values for ligand I increased from 5.2 to 20-60, while the R/S ratio for ligand II decreased from 2.9 to 0.8-0.9. These remarkable changes in the R/S ratios were not observed with Glu318Asp mutation for ligand III binding, whereas affinities for both enantiomers of ligand III were markedly decreased by the Glu318Ala mutation. Mutation Thr319Ala increased the R/S ratio of the Kd values for ligand I slightly but markedly decreased the R/S ratio of ligand II (from 2.9 to 0.8) and the S/R ratio of ligand III (from 6.0 to 1.0). Similar enhancements of the chiral discriminations were observed with the mutation Lys250Leu at another putative substrate-recognition site. Differences between the R- and S-enantiomers of the standard enthalpy and entropy of ligand III binding were changed most remarkably by the Thr319Ser mutation.(ABSTRACT TRUNCATED AT 250 WORDS)

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Role of the putative distal site in the catalytic function of cytochrome P4501A2

Shimizu¹,

Hiroya²,

Ishigooka³

et al. 1992

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Introduction:P450s have the conserved Thr(Thr252 for P450 cam , Thr319 for P450 1A2) in the (putative) distal site of the heme. This Thr seems to be important for the catalytic activities of P450s. Microsomal P450s have a conserved "Thr cluster" at the putative distal site. Thr319, Thr321, and Thr322 in P450 1A2 apparently compose the Thr cluster. An ionic amino acid such as Asp(Asp251 for P450 cam ) or Glu(Glu318 for P450 1A2) is also conserved at the adjacent amino acid position for P450s. To understand roles of those polar or ionic amino acids in the catalytic function, we made several mutants at this putative distal site of P450 1A2. Optical absorption spectra and catalytic activities of those mutants will be discussed in consideration of the activation of the O2 molecule.

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