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Inherent steroid 17α,20-lyase activity in defunct cytochrome P450 17A enzymes.
Gonzalez E, Johnson KM, Pallan PS, Phan TTN, Zhang W, Lei L, Wawrzak Z, Yoshimoto FK, Egli M, Guengerich FP
(2018) J Biol Chem 293: 541-556
MeSH Terms: Animals, Cytochrome P-450 Enzyme System, Humans, Hydroxysteroids, Protein Conformation, Steroid 17-alpha-Hydroxylase, Zebrafish
Show Abstract · Added March 14, 2018
Cytochrome P450 (P450) 17A1 catalyzes the oxidations of progesterone and pregnenolone and is the major source of androgens. The enzyme catalyzes both 17α-hydroxylation and a subsequent 17α,20-lyase reaction, and several mechanisms have been proposed for the latter step. Zebrafish P450 17A2 catalyzes only the 17α-hydroxylations. We previously reported high similarity of the crystal structures of zebrafish P450 17A1 and 17A2 and human P450 17A1. Five residues near the heme, which differed, were changed. We also crystallized this five-residue zebrafish P450 17A1 mutant, and the active site still resembled the structure in the other proteins, with some important differences. These P450 17A1 and 17A2 mutants had catalytic profiles more similar to each other than did the wildtype proteins. Docking with these structures can explain several minor products, which require multiple enzyme conformations. The 17α-hydroperoxy (OOH) derivatives of the steroids were used as oxygen surrogates. Human P450 17A1 and zebrafish P450s 17A1 and P450 17A2 readily converted these to the lyase products in the absence of other proteins or cofactors (with catalytically competent kinetics) plus hydroxylated 17α-hydroxysteroids. The 17α-OOH results indicate that a "Compound I" (FeO) intermediate is capable of formation and can be used to rationalize the products. We conclude that zebrafish P450 17A2 is capable of lyase activity with the 17α-OOH steroids because it can achieve an appropriate conformation for lyase catalysis in this system that is precluded in the conventional reaction.
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7 MeSH Terms
Kinetic processivity of the two-step oxidations of progesterone and pregnenolone to androgens by human cytochrome P450 17A1.
Gonzalez E, Guengerich FP
(2017) J Biol Chem 292: 13168-13185
MeSH Terms: 17-alpha-Hydroxypregnenolone, Androstenedione, Animals, Binding Sites, Biocatalysis, Cytochrome P-450 Enzyme Inhibitors, Cytochromes b5, Dehydroepiandrosterone, Humans, Imidazoles, Kinetics, Ligands, Models, Molecular, NADPH-Ferrihemoprotein Reductase, Naphthalenes, Oxidation-Reduction, Pregnenolone, Progesterone, Protein Conformation, Rats, Recombinant Proteins, Stereoisomerism, Steroid 17-alpha-Hydroxylase
Show Abstract · Added March 14, 2018
Cytochrome P450 (P450, CYP) 17A1 plays a critical role in steroid metabolism, catalyzing both the 17α-hydroxylation of pregnenolone and progesterone and the subsequent 17α,20-lyase reactions to form dehydroepiandrosterone (DHEA) and androstenedione (Andro), respectively, critical for generating glucocorticoids and androgens. Human P450 17A1 reaction rates examined are enhanced by the accessory protein cytochrome (), but the exact role of in P450 17A1-catalyzed reactions is unclear as are several details of these reactions. Here, we examined in detail the processivity of the 17α-hydroxylation and lyase steps. did not enhance reaction rates by decreasing the rates of any of the steroids. Steroid binding to P450 17A1 was more complex than a simple two-state system. Pre-steady-state experiments indicated lag phases for Andro production from progesterone and for DHEA from pregnenolone, indicating a distributive character of the enzyme. However, we observed processivity in pregnenolone/DHEA pulse-chase experiments. ()-Orteronel was three times more inhibitory toward the conversion of 17α-hydroxypregnenolone to DHEA than toward the 17α-hydroxylation of pregnenolone. IC values for ()-orteronel were identical for blocking DHEA formation from pregnenolone and for 17α-hydroxylation, suggestive of processivity. Global kinetic modeling helped assign sets of rate constants for individual or groups of reactions, indicating that human P450 17A1 is an inherently distributive enzyme but that some processivity is present, some of the 17α-OH pregnenolone formed from pregnenolone did not dissociate from P450 17A1 before conversion to DHEA. Our results also suggest multiple conformations of P450 17A1, as previously proposed on the basis of NMR spectroscopy and X-ray crystallography.
© 2017 by The American Society for Biochemistry and Molecular Biology, Inc.
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23 MeSH Terms
Mechanism of 17α,20-Lyase and New Hydroxylation Reactions of Human Cytochrome P450 17A1: 18O LABELING AND OXYGEN SURROGATE EVIDENCE FOR A ROLE OF A PERFERRYL OXYGEN.
Yoshimoto FK, Gonzalez E, Auchus RJ, Guengerich FP
(2016) J Biol Chem 291: 17143-64
MeSH Terms: Humans, Hydroxylation, Isotope Labeling, Oxygen, Progesterone, Steroid 17-alpha-Hydroxylase
Show Abstract · Added March 14, 2018
Cytochrome P450 (P450) reactions can involve C-C bond cleavage, and several of these are critical in steroid and sterol biosynthesis. The mechanisms of P450s 11A1, 17A1, 19A1, and 51A1 have been controversial, in the context of the role of ferric peroxide (FeO2 (-)) versus perferryl (FeO(3+), compound I) chemistry. We reinvestigated the 17α-hydroxyprogesterone and 17α-hydroxypregnenolone 17α,20-lyase reactions of human P450 17A1 and found incorporation of one (18)O atom (from (18)O2) into acetic acid, consonant with proposals for a ferric peroxide mechanism (Akhtar, M., Lee-Robichaud, P., Akhtar, M. E., and Wright, J. N. (1997) J. Steroid Biochem. Mol. Biol. 61, 127-132; Akhtar, M., Wright, J. N., and Lee-Robichaud, P. (2011) J. Steroid Biochem. Mol. Biol. 125, 2-12). However, the reactions were supported by iodosylbenzene (a precursor of the FeO(3+) species) but not by H2O2 We propose three mechanisms that can involve the FeO(3+) entity and that explain the (18)O label in the acetic acid, two involving the intermediacy of an acetyl radical and one a steroid 17,20-dioxetane. P450 17A1 was found to perform 16-hydroxylation reactions on its 17α-hydroxylated products to yield 16,17α-dihydroxypregnenolone and progesterone, suggesting the presence of an active perferryloxo active species of P450 17A1 when its lyase substrate is bound. The 6β-hydroxylation of 16α,17α-dihydroxyprogesterone and the oxidation of both 16α,17α-dihydroxyprogesterone and 16α,17α-dihydroxypregnenolone to 16-hydroxy lyase products were also observed. We provide evidence for the contribution of a compound I mechanism, although contribution of a ferric peroxide pathway in the 17α,20-lyase reaction cannot be excluded.
© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.
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6 MeSH Terms
Identification of Susceptibility Loci and Genes for Colorectal Cancer Risk.
Zeng C, Matsuda K, Jia WH, Chang J, Kweon SS, Xiang YB, Shin A, Jee SH, Kim DH, Zhang B, Cai Q, Guo X, Long J, Wang N, Courtney R, Pan ZZ, Wu C, Takahashi A, Shin MH, Matsuo K, Matsuda F, Gao YT, Oh JH, Kim S, Jung KJ, Ahn YO, Ren Z, Li HL, Wu J, Shi J, Wen W, Yang G, Li B, Ji BT, Genetics and Epidemiology of Colorectal Cancer Consortium (GECCO), Brenner H, Schoen RE, Küry S, Colorectal Transdisciplinary (CORECT) Study, Gruber SB, Schumacher FR, Stenzel SL, Colon Cancer Family Registry (CCFR), Casey G, Hopper JL, Jenkins MA, Kim HR, Jeong JY, Park JW, Tajima K, Cho SH, Kubo M, Shu XO, Lin D, Zeng YX, Zheng W
(2016) Gastroenterology 150: 1633-1645
MeSH Terms: Adult, Aged, Asian Continental Ancestry Group, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Case-Control Studies, Colorectal Neoplasms, Eukaryotic Initiation Factor-3, Female, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide, Qb-SNARE Proteins, Ribosomal Proteins, Risk Factors, Steroid 17-alpha-Hydroxylase, Suppressor of Cytokine Signaling Proteins, Young Adult
Show Abstract · Added May 4, 2017
BACKGROUND & AIMS - Known genetic factors explain only a small fraction of genetic variation in colorectal cancer (CRC). We conducted a genome-wide association study to identify risk loci for CRC.
METHODS - This discovery stage included 8027 cases and 22,577 controls of East-Asian ancestry. Promising variants were evaluated in studies including as many as 11,044 cases and 12,047 controls. Tumor-adjacent normal tissues from 188 patients were analyzed to evaluate correlations of risk variants with expression levels of nearby genes. Potential functionality of risk variants were evaluated using public genomic and epigenomic databases.
RESULTS - We identified 4 loci associated with CRC risk; P values for the most significant variant in each locus ranged from 3.92 × 10(-8) to 1.24 × 10(-12): 6p21.1 (rs4711689), 8q23.3 (rs2450115, rs6469656), 10q24.3 (rs4919687), and 12p13.3 (rs11064437). We also identified 2 risk variants at loci previously associated with CRC: 10q25.2 (rs10506868) and 20q13.3 (rs6061231). These risk variants, conferring an approximate 10%-18% increase in risk per allele, are located either inside or near protein-coding genes that include transcription factor EB (lysosome biogenesis and autophagy), eukaryotic translation initiation factor 3, subunit H (initiation of translation), cytochrome P450, family 17, subfamily A, polypeptide 1 (steroidogenesis), splA/ryanodine receptor domain and SOCS box containing 2 (proteasome degradation), and ribosomal protein S2 (ribosome biogenesis). Gene expression analyses showed a significant association (P < .05) for rs4711689 with transcription factor EB, rs6469656 with eukaryotic translation initiation factor 3, subunit H, rs11064437 with splA/ryanodine receptor domain and SOCS box containing 2, and rs6061231 with ribosomal protein S2.
CONCLUSIONS - We identified susceptibility loci and genes associated with CRC risk, linking CRC predisposition to steroid hormone, protein synthesis and degradation, and autophagy pathways and providing added insight into the mechanism of CRC pathogenesis.
Copyright © 2016 AGA Institute. Published by Elsevier Inc. All rights reserved.
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21 MeSH Terms
Structural and kinetic basis of steroid 17α,20-lyase activity in teleost fish cytochrome P450 17A1 and its absence in cytochrome P450 17A2.
Pallan PS, Nagy LD, Lei L, Gonzalez E, Kramlinger VM, Azumaya CM, Wawrzak Z, Waterman MR, Guengerich FP, Egli M
(2015) J Biol Chem 290: 3248-68
MeSH Terms: Amino Acid Sequence, Androstenes, Animals, Catalytic Domain, Kinetics, Molecular Docking Simulation, Molecular Sequence Data, Progesterone, Protein Binding, Steroid 17-alpha-Hydroxylase, Zebrafish, Zebrafish Proteins
Show Abstract · Added January 20, 2015
Cytochrome P450 (P450) 17A enzymes play a critical role in the oxidation of the steroids progesterone (Prog) and pregnenolone (Preg) to glucocorticoids and androgens. In mammals, a single enzyme, P450 17A1, catalyzes both 17α-hydroxylation and a subsequent 17α,20-lyase reaction with both Prog and Preg. Teleost fish contain two 17A P450s; zebrafish P450 17A1 catalyzes both 17α-hydroxylation and lyase reactions with Prog and Preg, and P450 17A2 is more efficient in pregnenolone 17α-hydroxylation but does not catalyze the lyase reaction, even in the presence of cytochrome b5. P450 17A2 binds all substrates and products, although more loosely than P450 17A1. Pulse-chase and kinetic spectral experiments and modeling established that the two-step P450 17A1 Prog oxidation is more distributive than the Preg reaction, i.e. 17α-OH product dissociates more prior to the lyase step. The drug orteronel selectively blocked the lyase reaction of P450 17A1 but only in the case of Prog. X-ray crystal structures of zebrafish P450 17A1 and 17A2 were obtained with the ligand abiraterone and with Prog for P450 17A2. Comparison of the two fish P450 17A-abiraterone structures with human P450 17A1 (DeVore, N. M., and Scott, E. E. (2013) Nature 482, 116-119) showed only a few differences near the active site, despite only ∼50% identity among the three proteins. The P450 17A2 structure differed in four residues near the heme periphery. These residues may allow the proposed alternative ferric peroxide mechanism for the lyase reaction, or residues removed from the active site may allow conformations that lead to the lyase activity.
© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.
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12 MeSH Terms
Molecular basis of 17α-hydroxylase/17,20-lyase deficiency.
Yanase T, Imai T, Simpson ER, Waterman MR
(1992) J Steroid Biochem Mol Biol 43: 973-9
MeSH Terms: Adrenal Hyperplasia, Congenital, Animals, COS Cells, Chlorocebus aethiops, Exons, Female, Humans, Male, Mutant Proteins, Recombinant Proteins, Steroid 17-alpha-Hydroxylase
Show Abstract · Added February 12, 2015
17α-Hydroxylase deficiency is characterized by a defect in either or both of 17α-hydroxylase and 17,20-lyase activities, based on the fact that a single polypeptide P450c17 can catalyze both reactions. The clinical manifestations of 17α-hydroxylase/17,20-lyase deficiency seem to be more heterogeneous than expected, varying from the classical type to less symptomatic forms as also observed in 21-hydroxylase deficiency. We have sequenced all eight exons of the CYP17 (P450c17) gene in DNA from several patients, reconstructed the mutations in a human P450c17 cDNA and expressed the mutant P450c17 in COS 1 cells to characterize the kinetic properties of 17α-hydroxylase and 17,20-lyase activities. The molecular bases of cases clinically reported as 17α-hydroxylase deficiency have turned out to be complete or partial combined deficiencies of 17α-hydroxylase/17,20-lyase. The elucidation of the molecular basis generally explains the patient's clinical profiles including the sexual phenotype of the external genitalia. In one case clinically reported as isolated 17,20-lyase deficiency, the molecular basis was found to be partial combined deficiency of both activities, somewhat discordant with the patient's clinical profile. Based on the results obtained so far we can predict that those 17α-hydroxylase deficient individuals having a homozygous stop codon in the CYP17 gene positioned at the amino terminal side of the P450c17 heme-binding cysteine (442) will all have the same phenotype. However those individuals having homozygous missense mutations or those who are compound heterozygotes having a missense mutation in at least one CYP17 allele will display their own unique phenotype which clinically will be subtly different from all others.
Copyright © 1992. Published by Elsevier Ltd.
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11 MeSH Terms
Comparison of cAMP-responsive DNA sequences and their binding proteins associated with expression of the bovine CYP17 and CYP11A and human CYP21B genes.
Waterman MR, Kagawa N, Zanger UM, Momoi K, Lund J, Simpson ER
(1992) J Steroid Biochem Mol Biol 43: 931-5
MeSH Terms: Adrenal Cortex, Animals, Cattle, Cholesterol Side-Chain Cleavage Enzyme, Cyclic AMP, Cyclic AMP Response Element-Binding Protein, Gene Expression Regulation, Enzymologic, Humans, Isoenzymes, Response Elements, Steroid 17-alpha-Hydroxylase, Steroid 21-Hydroxylase
Show Abstract · Added February 12, 2015
Maintenance of optimal steriodogenic capacity in the adrenal cortex requires the action of the peptide hormone ACTH. Upon binding to its cell surface receptor ACTH activates adenylate cyclase leading to elevated levels of intracellular cAMP which in turn enhances transcription of the genes encoding the enzymes involved in the conversion of cholesterol to the steroid hormones. By deletion analysis of their upstream regions, the genes encoding the steroid hydroxylases P450c17, P450c21 and P450scc (CYP17, CYP21B and CYP11A, respectively) were found to contain unique cAMP-responsive sequences (CRSs). These sequences are unique in the sense that they have not previously been described to be associated with other genes whose transcription is regulated by cAMP. Furthermore they appear to bind unique nuclear proteins or transcription factors not previously associated with cAMP-dependent transcription. This review summarizes the relatedness of these CRSs in the bovine CYP17 and CYP11A genes and the human CYP12B gene and provides an up-to-date summary of the properties of their nuclear DNA-binding proteins.
Copyright © 1992. Published by Elsevier Ltd.
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12 MeSH Terms
Clinical, genetic, and enzymatic characterization of P450 oxidoreductase deficiency in four patients.
Sahakitrungruang T, Huang N, Tee MK, Agrawal V, Russell WE, Crock P, Murphy N, Migeon CJ, Miller WL
(2009) J Clin Endocrinol Metab 94: 4992-5000
MeSH Terms: Adolescent, Adult, Bone and Bones, Catalysis, Cytochromes c, DNA, Disorders of Sex Development, Escherichia coli, Female, Genetic Vectors, Genitalia, Hormones, Humans, Infant, Newborn, Infertility, Male, Mutation, NADP, NADPH-Ferrihemoprotein Reductase, Pregnancy, Steroid 17-alpha-Hydroxylase, Syndrome
Show Abstract · Added May 5, 2016
CONTEXT - P450 oxidoreductase (POR) deficiency causes disordered steroidogenesis; severe mutations cause genital ambiguity in both sexes plus the Antley-Bixler skeletal malformation syndrome, whereas mild mutations can cause adult infertility.
OBJECTIVE - We describe four patients with POR deficiency and identify and characterize the activities of their mutations. A 46,XY male with micropenis and two 46,XX female infants with genital ambiguity presented with skeletal malformations, and a 46,XX adolescent presented with primary amenorrhea, elevated 17alpha-hydroxyprogesterone, and low sex steroids.
METHODS - The coding regions of the POR gene were sequenced, and the identified mutations were recreated in human POR cDNA expression vectors lacking 27 N-terminal residues. POR and human P450c17 were expressed in bacteria. POR activity was measured by four assays: reduction of cytochrome c, oxidation of reduced nicotinamide adenine dinucleotide phosphate, and support of the 17alpha-hydroxylase and 17,20 lyase activities of P450c17.
RESULTS - All four patients were compound heterozygotes for POR mutations, including five novel mutations: L577R, N185K, delE217, and frameshift mutations 1363delC and 697-698insGAAC. N185K and delE217 lacked measurable activity in the assays based on P450c17 but retained partial activity in the assays based on cytochrome c. As assessed by V(max)/Km, L577R supported 46% of 17alpha-hydroxylase activity but only 27% of 17,20 lyase activity. Computational modeling of these novel mutants revealed the structural basis for their reduced or absent activities.
CONCLUSION - These patients illustrate the broad clinical spectrum of POR deficiency, including amenorrhea and infertility as the sole manifestation. POR assays based on P450c17 correlate well with hormonal and clinical phenotypes.
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22 MeSH Terms
Steroid hormones and hormone-related genetic and lifestyle characteristics as risk factors for benign prostatic hyperplasia: review of epidemiologic literature.
Neuhouser ML, Kristal AR, Penson DF
(2004) Urology 64: 201-11
MeSH Terms: 3-Oxo-5-alpha-Steroid 4-Dehydrogenase, Aged, Alcohol Drinking, Case-Control Studies, Cohort Studies, Comorbidity, Cross-Sectional Studies, Diet, Genetic Predisposition to Disease, Gonadal Steroid Hormones, Humans, Life Style, Male, Middle Aged, Motor Activity, Obesity, Prostatic Hyperplasia, Receptors, Androgen, Receptors, Calcitriol, Risk Factors, Smoking, Steroid 17-alpha-Hydroxylase, Trinucleotide Repeats, United States
Added March 5, 2014
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24 MeSH Terms
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.
Sewer MB, Nguyen VQ, Huang CJ, Tucker PW, Kagawa N, Waterman MR
(2002) Endocrinology 143: 1280-90
MeSH Terms: Adrenal Cortex, Amino Acid Sequence, Blotting, Western, Cell Nucleus, Cells, Cultured, Cycloheximide, DNA-Binding Proteins, Fushi Tarazu Transcription Factors, Gene Expression Regulation, Enzymologic, Histone Deacetylases, Homeodomain Proteins, Humans, Immunoenzyme Techniques, Molecular Sequence Data, Nuclear Proteins, Plasmids, Promoter Regions, Genetic, Protein Synthesis Inhibitors, Receptors, Cytoplasmic and Nuclear, Serine-Arginine Splicing Factors, Steroid 17-alpha-Hydroxylase, Steroidogenic Factor 1, Transcription Factors, Transcription, Genetic, Transcriptional Activation
Show Abstract · Added February 12, 2015
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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25 MeSH Terms