Norio Kagawa scite author profile

Background: Steroid 21-hydroxylase deficiency accounts for ϳ95% of individuals with congenital adrenal hyperplasia (CAH). Results: The bovine cytochrome P450 21A2 (CYP21A2) crystal structure complexed with the substrate 17-hydroxyprogesterone was determined to 3.0 Å resolution. Conclusion:The structure reveals the binding mode of two molecules of the steroid substrate and accurate residue locations in the protein.Significance: The structure of CYP21A2 enhances our understanding of CAH.

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The CYPome of Sorangium cellulosum So ce56 and Identification of CYP109D1 as a New Fatty Acid Hydroxylase

Khatri

Hannemann

Ewen

et al. 2010

Chemistry & Biology

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The first systematic study of the complete cytochrome P450 complement (CYPome) of Sorangium cellulosum So ce56, which is a producer of important secondary metabolites and has the largest bacterial genome sequenced to date, is presented. We describe the bioinformatic analysis of the So ce56 cytochrome P450 complement consisting of 21 putative P450 genes. Because fatty acids play a pivotal role during the complex life cycle of myxobacteria, we focused our studies on the characterization of fatty acid hydroxylases. Three novel potential fatty acid hydroxylases (CYP109D1, CYP264A1, and CYP266A1) were used for detailed characterization. One of them, CYP109D1 was able to perform subterminal hydroxylation of saturated fatty acids with the support of two autologous and one heterologous electron transfer system(s). The kinetic parameters for the product hydroxylation were derived.

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Frontiers in Bioscience 10, 119-134, January 1, 2005

Sakaki

Kagawa²,

Yamamoto³

et al. 2005

Front Biosci

129

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The vitamin D3 25-hydroxylase (CYP27A1), 25-hydroxyvitamin D3 1alpha-hydroxylase (CYP27B1) and 1alpha,25-dihydroxyvitamin D3 24-hydroxylase (CYP24A1) are members of the cytochrome P450 superfamily, and key enzymes of vitamin D3 metabolism. Using the heterologous expression in E. coli, enzymatic properties of the P450s were recently investigated in detail. Upon analyses of the metabolites of vitamin D3 by the reconstituted system, CYP27A1 surprisingly produced at least seven forms of minor metabolites including 1alpha,25(OH)2D3 in addition to the major metabolite 25(OH)D3. These results indicated that human CYP27A1 catalyzes multiple reactions involved in the vitamin D3 metabolism. In contrast, CYP27B1 only catalyzes the hydroxylation at C-1alpha position of 25(OH)D3 and 24R,25(OH)2D3. Enzymatic studies on substrate specificity of CYP27B1 suggest that the 1alpha-hydroxylase activity of CYP27B1 requires the presence of 25-hydroxyl group of vitamin D3 and is enhanced by 24-hydroxyl group while the presence of 23-hydroxyl group greatly reduced the activity. Eight types of missense mutations in the CYP27B1 gene found in vitamin D-dependent rickets type I (VDDR-I) patients completely abolished the 1alpha-hydroxylase activity. A three-dimensional model of CYP27B1 structure simulated on the basis of the crystal structure of rabbit CYP2C5 supports the experimental data from mutagenesis study of CYP27B1 that the mutated amino acid residues may be involved in protein folding, heme-propionate binding or activation of molecular oxygen. CYP24A1 expressed in E. coli showed a remarkable metabolic processes of 25(OH)D3 and 1alpha,25(OH)2D3. Rat CYP24A1 catalyzed six sequential monooxygenation reactions that convert 1alpha,25(OH)2D3 into calcitroic acid, a known final metabolite of C-24 oxidation pathway. In addition to the C-24 oxidation pathway, human CYP24A1 catalyzed also C-23 oxidation pathway to produce 1alpha,25(OH)2D3-26,23-lactone. Surprisingly, more than 70 % of the vitamin D metabolites observed in a living body were found to be the products formed by the activities of CYP27A1, CYP27B1 and CYP24A1. The species-based difference was also observed in the metabolism of vitamin D analogs by CYP24A1, suggesting that the recombinant system for human CYP24A1 may be of great use for the prediction of the metabolism of vitamin D analogs in humans.

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Characterization of stable human aromatase expressed in E. coli

et al. 2004

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Tissue-distribution of aldehyde dehydrogenase 2 and effects of the Aldh2 gene-disruption on the expression of enzymes involved in alcohol metabolism

Oyama

Isse²,

Kagawa³

et al. 2005

Front Biosci

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In alcohol metabolism, acetaldehyde, a highly reactive intermediate that may cause cellular and DNA damages, is converted to acetate by mitochondrial aldehyde dehydrogenase ALDH2. Although the majority of ingested alcohol is eliminated in the liver, the first-pass metabolism of ethanol in the upper digestive tract is also important for prevention and management of ethanol-related gastrointestinal diseases. However, the tissue-distribution of Aldh2 in mice has been poorly investigated. In this study, therefore, we investigated the tissue-distribution of Aldh2 as well as Aldh1, Cyp1a1, Cyp2e1, and Cyp4b1 in wild type and Aldh2-null mice by immuno-histochemical analysis. The human liver and esophageal tissues were also examined. In mice, the Aldh2 protein was detected in the liver, lung, heart, kidney, testis, esophagus, stomach, colon, and pancreas, suggesting that the tissue-distribution of Aldh2 in mice is similar to that in humans. Therefore, Aldh2-null mice may be useful model animals for the investigation of alcohol metabolism and related diseases. Compared with the wild type, the expression level of Cyp2e1 was increased in the liver from Aldh2-null mice based on Western blot analysis, whereas the levels of Aldh1, Cyp1a1, and Cyp4b1 were indistinguishable. This observation suggests that a metabolite(s) of Aldh2 might down-regulate the expression of Cyp2e1 gene.

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Transcriptional Activation of Human CYP17 in H295R Adrenocortical Cells Depends on Complex Formation among p54^nrb/NonO, Protein-Associated Splicing Factor, and SF-1, a Complex That Also Participates in Repression of Transcription

Sewer¹,

Nguyen²,

Huang³

et al. 2002

Endocrinology

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The first 57 bp upstream of the transcription initiation site of the human CYP17 (hCYP17) gene are essential for both basal and cAMP-dependent transcription. EMSA carried out by incubating H295R adrenocortical cell nuclear extracts with radiolabeled -57/-38 probe from the hCYP17 promoter showed the formation of three DNA-protein complexes. The fastest complex contained steroidogenic factor (SF-1) and p54(nrb)/NonO, the intermediate complex contained p54(nrb)/NonO and polypyrimidine tract-binding protein-associated splicing factor (PSF), and the slowest complex contained an SF-1/PSF/p54(nrb)/NonO complex. (Bu)(2)cAMP treatment resulted in a cAMP-inducible increase in the binding intensity of only the upper complex and also activated hCYP17 gene transcription. SF-1 coimmunoprecipitated with p54(nrb)/NonO, indicating direct interaction between these proteins. Functional assays revealed that PSF represses basal transcription. Further, the repression of hCYP17 promoter-reporter construct luciferase activity resulted from PSF interacting with the corepressor mSin3A. Trichostatin A attenuated the inhibition of basal transcription, suggesting that a histone deacetylase interacts with the SF-1/PSF/p54(nrb)/NonO/mSin3A complex. Our studies lend support to the idea that the balance between transcriptional activation and repression is essential in the control of adrenocortical steroid hormone biosynthesis.

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Purification and characterization of mouse CYP27B1 overproduced by an Escherichia coli system coexpressing molecular chaperonins GroEL/ES

Uchida

Kagawa

Sakaki

et al. 2004

Biochemical and Biophysical Research Communications

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Norio Kagawa

The Role of Cytochrome b5 in the Biosynthesis of Androgens by Human P450c17

Three-dimensional Structure of Steroid 21-Hydroxylase (Cytochrome P450 21A2) with Two Substrates Reveals Locations of Disease-associated Variants

The CYPome of Sorangium cellulosum So ce56 and Identification of CYP109D1 as a New Fatty Acid Hydroxylase

Frontiers in Bioscience 10, 119-134, January 1, 2005

Characterization of stable human aromatase expressed in E. coli

Tissue-distribution of aldehyde dehydrogenase 2 and effects of the Aldh2 gene-disruption on the expression of enzymes involved in alcohol metabolism

Transcriptional Activation of Human CYP17 in H295R Adrenocortical Cells Depends on Complex Formation among p54^nrb/NonO, Protein-Associated Splicing Factor, and SF-1, a Complex That Also Participates in Repression of Transcription

Purification and characterization of mouse CYP27B1 overproduced by an Escherichia coli system coexpressing molecular chaperonins GroEL/ES

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Norio Kagawa

The Role of Cytochrome b5 in the Biosynthesis of Androgens by Human P450c17

Three-dimensional Structure of Steroid 21-Hydroxylase (Cytochrome P450 21A2) with Two Substrates Reveals Locations of Disease-associated Variants

The CYPome of Sorangium cellulosum So ce56 and Identification of CYP109D1 as a New Fatty Acid Hydroxylase

Frontiers in Bioscience 10, 119-134, January 1, 2005

Characterization of stable human aromatase expressed in E. coli

Tissue-distribution of aldehyde dehydrogenase 2 and effects of the Aldh2 gene-disruption on the expression of enzymes involved in alcohol metabolism

Transcriptional Activation of Human CYP17 in H295R Adrenocortical Cells Depends on Complex Formation among p54nrb/NonO, Protein-Associated Splicing Factor, and SF-1, a Complex That Also Participates in Repression of Transcription

Purification and characterization of mouse CYP27B1 overproduced by an Escherichia coli system coexpressing molecular chaperonins GroEL/ES

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Transcriptional Activation of Human CYP17 in H295R Adrenocortical Cells Depends on Complex Formation among p54^nrb/NonO, Protein-Associated Splicing Factor, and SF-1, a Complex That Also Participates in Repression of Transcription