Elisa Brill scite author profile

In the genome of Bacillus megaterium DSM319, a strain who has recently been sequenced to fully exploit its potential for biotechnological purposes, we identified a gene encoding the cytochrome P450 CYP106A1 as well as genes encoding potential redox partners of CYP106A1. We cloned, expressed, and purified CYP106A1 and five potential autologous redox partners, one flavodoxin and four ferredoxins. The flavodoxin and three ferredoxins were able to support the activity of CYP106A1 displaying the first cloned natural redox partners of a cytochrome P450 from B. megaterium. The CYP106A1 system was able to convert the pentacyclic triterpene 11-keto-β-boswellic acid (KBA) belonging to the main bioactive constituents of Boswellia serrata gum resin extracts, which are used to treat inflammatory disorders and arthritic diseases. In order to provide sufficient amounts of the KBA products to characterize them structurally by NMR spectroscopy, recombinant whole-cell biocatalysts were constructed based on B. megaterium MS941. The main product has been identified as 7β-hydroxy-KBA, while the side product (∼20%) was shown to be a mixture of 7β,15α-dihydroxy-KBA and 15α-hydroxy-KBA. Without further optimization 560.7 mg l⁻¹ day⁻¹ of the main product, 7β-hydroxy-KBA, could be obtained thus providing a suitable starting point for the efficient production of modified KBA by chemical tailoring to produce novel KBA derivatives with increased bioavailability and this way more efficient drugs.

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Structural basis of steroid binding and oxidation by the cytochrome P450 CYP109E1 from Bacillus megaterium

Jozwik

Kiss

Gricman

et al. 2016

The FEBS Journal

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Cytochrome P450 monooxygenases (P450s) are attractive enzymes for the pharmaceutical industry, in particular, for applications in steroidal drug synthesis. Here, we report a comprehensive functional and structural characterization of CYP109E1, a novel steroid‐converting cytochrome P450 enzyme identified from the genome of Bacillus megaterium DSM319. In vitro and whole‐cell in vivo turnover experiments, combined with binding assays, revealed that CYP109E1 is able to hydroxylate testosterone at position 16β. Related steroids with bulky substituents at carbon C17, like corticosterone, bind to the enzyme without being converted. High‐resolution X‐ray structures were solved of a steroid‐free form of CYP109E1 and of complexes with testosterone and corticosterone. The structural analysis revealed a highly dynamic active site at the distal side of the heme, which is wide open in the absence of steroids, can bind four ordered corticosterone molecules simultaneously, and undergoes substantial narrowing upon binding of single steroid molecules. In the crystal structures, the single bound steroids adopt unproductive binding modes coordinating the heme‐iron with their C3‐keto oxygen. Molecular dynamics (MD) simulations suggest that the steroids may also bind in ~180° reversed orientations with the C16 carbon and C17‐substituents pointing toward the heme, leading to productive binding of testosterone explaining the observed regio‐ and stereoselectivity. The X‐ray structures and MD simulations further identify several residues with important roles in steroid binding and conversion, which could be confirmed by site‐directed mutagenesis. Taken together, our results provide unique insights into the CYP109E1 activity, substrate specificity, and regio/stereoselectivity.DatabaseThe atomic coordinates and structure factors have been deposited in the Protein Data Bank with accession codes 5L90 (steroid‐free CYP109E1), 5L91 (CYP109E1‐COR4), 5L94 (CYP109E1‐TES), and 5L92 (CYP109E1‐COR).EnzymesCytochrome P450 monooxygenase CYP109E1, EC 1.14.14.1, UniProt ID: D5DKI8, Adrenodoxin reductase EC 1.18.1.6.

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Characterization of cytochrome P450 CYP109E1 from Bacillus megaterium as a novel vitamin D3 hydroxylase

Abdulmughni

Jozwik

Putkaradze

et al. 2017

Journal of Biotechnology

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Biochemical and structural characterization of CYP109A2, a vitamin D₃ 25‐hydroxylase from Bacillus megaterium

et al. 2017

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CYP109E1 is a novel versatile statin and terpene oxidase from Bacillus megaterium

Putkaradze

Litzenburger

Abdulmughni

et al. 2017

Appl Microbiol Biotechnol

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CYP109E1 is a cytochrome P450 monooxygenase from Bacillus megaterium with a hydroxylation activity for testosterone and vitamin D3. This study reports the screening of a focused library of statins, terpene-derived and steroidal compounds to explore the substrate spectrum of this enzyme. Catalytic activity of CYP109E1 towards the statin drug-precursor compactin and the prodrugs lovastatin and simvastatin as well as biotechnologically relevant terpene compounds including ionones, nootkatone, isolongifolen-9-one, damascones, and β-damascenone was found in vitro. The novel substrates induced a type I spin-shift upon binding to P450 and thus permitted to determine dissociation constants. For the identification of conversion products by NMR spectroscopy, a B. megaterium whole-cell system was applied. NMR analysis revealed for the first time the ability of CYP109E1 to catalyze an industrially highly important reaction, the production of pravastatin from compactin, as well as regioselective oxidations generating drug metabolites (6'β-hydroxy-lovastatin, 3'α-hydroxy-simvastatin, and 4″-hydroxy-simvastatin) and valuable terpene derivatives (3-hydroxy-α-ionone, 4-hydroxy-β-ionone, 11,12-epoxy-nootkatone, 4(R)-hydroxy-isolongifolen-9-one, 3-hydroxy-α-damascone, 4-hydroxy-β-damascone, and 3,4-epoxy-β-damascone). Besides that, a novel compound, 2-hydroxy-β-damascenone, produced by CYP109E1 was identified. Docking calculations using the crystal structure of CYP109E1 rationalized the experimentally observed regioselective hydroxylation and identified important amino acid residues for statin and terpene binding.

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Elisa Brill

A new cytochrome P450 system from Bacillus megaterium DSM319 for the hydroxylation of 11-keto-β-boswellic acid (KBA)

Structural basis of steroid binding and oxidation by the cytochrome P450 CYP109E1 from Bacillus megaterium

Characterization of cytochrome P450 CYP109E1 from Bacillus megaterium as a novel vitamin D3 hydroxylase

Biochemical and structural characterization of CYP109A2, a vitamin D₃ 25‐hydroxylase from Bacillus megaterium

CYP109E1 is a novel versatile statin and terpene oxidase from Bacillus megaterium

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Elisa Brill

A new cytochrome P450 system from Bacillus megaterium DSM319 for the hydroxylation of 11-keto-β-boswellic acid (KBA)

Structural basis of steroid binding and oxidation by the cytochrome P450 CYP109E1 from Bacillus megaterium

Characterization of cytochrome P450 CYP109E1 from Bacillus megaterium as a novel vitamin D3 hydroxylase

Biochemical and structural characterization of CYP109A2, a vitamin D3 25‐hydroxylase from Bacillus megaterium

CYP109E1 is a novel versatile statin and terpene oxidase from Bacillus megaterium

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Product

Resources

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Biochemical and structural characterization of CYP109A2, a vitamin D₃ 25‐hydroxylase from Bacillus megaterium