Evidence for communality in the primary determinants of CYP74 catalysis and of structural similarities between CYP74 and classical mammalian P450 enzymes

In silico structural analysis of CYP74C3, a membrane‐associated P450 enzyme from the plant Medicago truncatula (barrel medic) with hydroperoxide lyase (HPL) specificity, showed that it had strong similarities to the structural folds of the classical microsomal P450 enzyme from rabbits (CYP2C5). It w...

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Published in:Proteins, structure, function, and bioinformatics structure, function, and bioinformatics, 2008-09, Vol.72 (4), p.1199-1211
Main Authors: Hughes, Richard K., Yousafzai, Faridoon K., Ashton, Ruth, Chechetkin, Ivan R., Fairhurst, Shirley A., Hamberg, Mats, Casey, Rod
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
biodiversity
Catalysis
Cloning, Molecular
Cytochrome P-450 Enzyme System - chemistry
Cytochrome P-450 Enzyme System - genetics
Cytochrome P450 Family 2
detergent
haem
Kinetics
Linoleic Acids - metabolism
Linolenic Acids - metabolism
Lipid Peroxides - metabolism
Medicago truncatula - enzymology
Medicin och hälsovetenskap
membrane
metabolism
micelle
modelling
Molecular Sequence Data
mutagenesis
oxylipin
plant
Plant Proteins - chemistry
Plant Proteins - genetics
Point Mutation
Rabbits
Sequence Alignment
Steroid 21-Hydroxylase - chemistry
Steroid 21-Hydroxylase - genetics
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Summary:In silico structural analysis of CYP74C3, a membrane‐associated P450 enzyme from the plant Medicago truncatula (barrel medic) with hydroperoxide lyase (HPL) specificity, showed that it had strong similarities to the structural folds of the classical microsomal P450 enzyme from rabbits (CYP2C5). It was not only the secondary structure predictions that supported the analysis but site directed mutagenesis of the substrate interacting residues was also consistent with it. This led us to develop a substrate‐binding model of CYP74C3 which predicted three amino acid residues, N285, F287, and G288 located in the putative I‐helix and distal haem pocket of CYP74C3 to be in close proximity to the preferred substrate 13‐HPOTE. These residues were judged to be in equivalent positions to those identified in SRS‐4 of CYP2C5. Significance of the residues and their relevance to the model were further assessed by site directed mutagenesis of the three residues followed by EPR spectroscopic and detailed kinetic investigations of the mutated proteins in the presence and absence of detergent. Although point mutation of the residues had no effect on the haem content of the mutated proteins, significant effects on the spin state equilibrium of the haem iron were noted. Kinetic effects of the mutations, which were investigated using three different substrates, were dramatic in nature. In the presence of detergent with the preferred substrate (13‐HPOTE), the catalytic center activities and substrate binding affinities of the mutant proteins were reduced by a factor of 8–32 and 4–12, respectively, compared with wild‐type – a two orders of magnitude reduction in catalytic efficiencies. We believe this is the first report where primary determinants of catalysis for any CYP74 enzyme, which are fully consistent with our model, have been identified. Our working model predicts that N285 is close enough to suggest that a hydrogen bond with the peroxy group of the enzyme substrate 13‐HPOTE is warranted, whereas significance of F287 may arise from a strong hydrophobic interaction between the alkyl group(s) of the substrate and the phenyl ring of F287. We believe that G288 is crucial because of its size. Any other residue with a relatively bulky side chain will hinder the access of substrate to the active site. The effects of the mutations suggests that subtle protein conformational changes in the putative substrate‐binding pocket regulate the formation of a fully active monomer‐micelle comp
ISSN:0887-3585
1097-0134
1097-0134
DOI:10.1002/prot.22012