Studium molekulární organizace systému cytochromu P450 / Study of molecular organization of cytochrome P450 system

Holý, Petr

January 2017

Mixed-function oxygenase systém (MFO systém) plays a vital role in the metabolism of a variety of both endogenous substrates and xenobiotics. This membrane systém consists of cytochrome P450s, NADPH:cytochrome P450 oxidoreductase (POR), cytochrome b5 and NADH:cytochrome b5 oxidoreductase (b5R). Cytochrome P450 catalyzes a monooxygenation of a substrate, while POR and cytochrome b5 represent its redox partners. Cytochrome b5, itself having a redox partner in b5R, effects the reactions catalyzed by the MFO system in various ways, through mechanisms that are not fully understood. This paper focuses on the purification of b5R and POR from rabbit liver. The microsomal fraction obtained by differential centrifugation contained 42 mg of protein per ml. From a portion of the microsomal fraction, b5R was obtained using chromatography on DEAE-Sepharose, CM-Sepharose and 5'-ADP agarose columns. The yield was 0,3 % of ferricynide-reductase activity and the product contained several contaminants in the molecular weight range of 50-70 kDa. A second purification of b5R from the microsomal fraction was carried out using a column of DEAE-Sepharose directly connected to a 5'-ADP agarose column. The b5R product was purified with a yield of 10,9 % and it once again contained several contaminants in the molecular...

Biochemical and Pharmacological Characterization of Cytochrome b5 Reductase as a Potential Novel Therapeutic Target in Candida albicans

Holloway, Mary Jolene Patricia

01 January 2011

The opportunistic fungus Candida albicans is a commensal member of the human microflora and is the most common causative agent of fungal-related disease with particular significance in immunocompromised individuals. Emerging drug resistance is a major problem in Candida, contributed by enzymes involved in the detoxification of xenobiotics and pharmacological agents. One such enzyme, cytochrome b5 reductase (cb5r), has a high pharmacological significance owing to its role in fatty acid elongation, ergosterol (or cholesterol in mammals) biosynthesis, and cytochrome P450-mediated detoxification of xenobiotics. We have compared the kinetic, biochemical, and pharmacological characteristics of C. albicans cb5r isoforms, Cbr1 and Mcr1, as compared to the mammalian control, rat cb5r. We have observed two key structural differences between the fungal and mammalian proteins that may account for decreased thermal stability and inhibitor specificity of C. albicans Cbr1. Substrate binding affinity and catalytic efficiencies, as well as investigation in the flavin-binding environment, were comparable between the fungal and rat enzymes. In S. cerevisiae, CBR1 and MCR1 knockout strains have been challenged with environmental stressors and subsequently shown to have a role in azole and amphotericin B resistance. Our results of potential protein interactions of C. albicans Cbr1 describe proteins involved in the weak acid stress response, implying a novel role of the protein in pathogenicity. Conclusively, this report describes potential inhibitors of the fungal protein, as well as elaborating upon its important role in ergosterol biosynthesis and possible mechanisms of CYP450-mediated drug detoxification.

azole resistance

Candida albicans

cytochrome b5 reductase

ergosterol biosynthesis

American Studies

Arts and Humanities

Biochemistry

Microbiology

Molecular Biology