Subtle structural changes in the Asp251Gly/Gln307His P450 BM3 mutant responsible for new activity toward diclofenac, tolbutamide and ibuprofen

Nardo, Giovanna Di; Dell'Angelo, V.; Catucci, Gianluca; Sadeghi, Sheila J.; Gilardi, Gianfranco

doi:10.1016/j.abb.2015.12.005

Cited by 24 publications

(23 citation statements)

References 51 publications

(66 reference statements)

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“…C). It is known that these elements, particularly the F‐G loop, are flexible in cytochromes P450 and allow substrate entrance along the access channel . The RMSF profile obtained from our 20 nSec simulation is in very good agreement with the one previously reported for human aromatase (250 nSec) .…”

Section: Resultssupporting

confidence: 87%

Working at the membrane interface: Ligand‐induced changes in dynamic conformation and oligomeric structure in human aromatase

Nardo

Cimicata

Baravalle

et al. 2017

Biotech and App Biochem

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Aromatase catalyzes the biosynthesis of estrogens from androgens. Owing to the physiological importance of this conversion of lipophilic substrates, the interaction with the lipid bilayer for this cytochrome P450 is crucial for its dynamics that must allow an easy access to substrates and inhibitors. Here, the aromatase-anastrozole interaction is studied by combining computational methods to identify possible access/egress routes with the protein inserted in the membrane and experimental tools aimed at the investigation of the effect of the inhibitor on the protein conformation. By means of molecular dynamics simulations of the protein inserted in the membrane, two channels, not detected in the starting crystal structure, are found after a 20-nSec simulation. Trypsin digestion on the recombinant protein shows that the enzyme is strongly protected by the presence of the substrate and even more by the inhibitor. DSC experiments show an increase in the melting temperature of the protein in complex with the substrate (49.3 °C) and the inhibitor (58.7 °C) compared to the ligand-free enzyme (45.9 °C), consistent with a decrease of flexibility of the protein. The inhibitor anastrozole enters the active site of the protein through a channel different from that used from the substrate and promotes a conformational change that stiffens the protein conformation and decreases the protein-protein interaction between different aromatase molecules.

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Section: Resultssupporting

confidence: 87%

Working at the membrane interface: Ligand‐induced changes in dynamic conformation and oligomeric structure in human aromatase

Nardo

Cimicata

Baravalle

et al. 2017

Biotech and App Biochem

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“…By contrast, P450 BM3, bacterial P450 enzyme from Bacillus megaterium , has been shown to be able to produce drug metabolites typical of the human enzymes with a high coupling efficiency . Owing to P450 BM3 characteristics, multiple protein engineering studies have been performed on this enzyme to widen its catalytic abilities . Moreover, several constructions have been already reported including different fusion human P450 enzymes, engineered by connecting the P450 BM3 reductase domain with human cytochromes P450 3A4, 2C9, 2C19 , 2A6, CYP2C6, and CYP4F11 , monkey 2C20 , and dog CYP2D15 .…”

Section: Biopharmaceuticalsmentioning

confidence: 99%

Progress in biopharmaceutical development

Kęsik-Brodacka

2017

Biotech and App Biochem

264

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Since its introduction in 1982, biopharmaceutical drugs have revolutionized the treatment of a broad spectrum of diseases and are increasingly used in nearly all branches of medicine. In recent years, the biopharmaceuticals market has developed much faster than the market for all drugs and is believed to have great potential for further dynamic growth because of the tremendous demand for these drugs. Biobetters, which contain altered active pharmaceutical ingredients with enhanced efficacy, will play an important role in the development of biopharmaceuticals. Another significant group of biopharmaceuticals are biosimilars. Their introduction in the European Union and, recently, the Unites States markets will reduce the costs of biopharmaceutical treatment. This review highlights recent progress in the field of biopharmaceutical development and issues concerning the registration of innovative biopharmaceuticals and biosimilars. The leading class of biopharmaceuticals, the current biopharmaceuticals market, and forecasts are also discussed.

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“…This has led to a wide range of protein engineering studies on this enzyme to widen its catalytic abilities (Tsotsou et al, 2012, 2013; Ryu et al, 2014; Di Nardo et al, 2015; Ren et al, 2015; Capoferri et al, 2016). …”

Section: Introductionmentioning

confidence: 99%

Human Cytochrome P450 3A4 as a Biocatalyst: Effects of the Engineered Linker in Modulation of Coupling Efficiency in 3A4-BMR Chimeras

et al. 2017

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Human liver cytochrome P450 3A4 is the main enzyme involved in drug metabolism. This makes it an attractive target for biocatalytic applications, such as the synthesis of pharmaceuticals and drug metabolites. However, its poor solubility, stability and low coupling have limited its application in the biotechnological context. We previously demonstrated that the solubility of P450 3A4 can be increased by creating fusion proteins between the reductase from Bacillus megaterium BM3 (BMR) and the N-terminally modified P450 3A4 (3A4-BMR). In this work, we aim at increasing stability and coupling efficiency by varying the length of the loop connecting the two domains to allow higher inter-domain flexibility, optimizing the interaction between the domains. Starting from the construct 3A4-BMR containing the short linker Pro-Ser-Arg, two constructs were generated by introducing a 3 and 5 glycine hinge (3A4-3GLY-BMR and 3A4-5GLY-BMR). The three fusion proteins show the typical absorbance at 450 nm of the reduced heme-CO adduct as well as the correct incorporation of the FAD and FMN cofactors. Each of the three chimeric proteins were more stable than P450 3A4 alone. Moreover, the 3A4-BMR-3-GLY enzyme showed the highest NADPH oxidation rate in line with the most positive reduction potential. On the other hand, the 3A4-BMR-5-GLY fusion protein showed a Vmax increased by 2-fold as well as a higher coupling efficiency when compared to 3A4-BMR in the hydroxylation of the marker substrate testosterone. This protein also showed the highest rate value of cytochrome c reduction when this external electron acceptor is used to intercept electrons from BMR to P450. The data suggest that the flexibility and the interaction between domains in the chimeric proteins is a key parameter to improve turnover and coupling efficiency. These findings provide important guidelines in engineering catalytically self-sufficient human P450 for applications in biocatalysis.

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Subtle structural changes in the Asp251Gly/Gln307His P450 BM3 mutant responsible for new activity toward diclofenac, tolbutamide and ibuprofen

Cited by 24 publications

References 51 publications

Working at the membrane interface: Ligand‐induced changes in dynamic conformation and oligomeric structure in human aromatase

Working at the membrane interface: Ligand‐induced changes in dynamic conformation and oligomeric structure in human aromatase

Progress in biopharmaceutical development

Human Cytochrome P450 3A4 as a Biocatalyst: Effects of the Engineered Linker in Modulation of Coupling Efficiency in 3A4-BMR Chimeras

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