Abstract
Microbial cholesterol oxidase is an enzyme of great commercial value, widely employed by laboratories routinely devoted to the determination of cholesterol concentrations in serum, other clinical samples, and food. In addition, the enzyme has potential applications as a biocatalyst which can be used as an insecticide and for the bioconversion of a number of sterols and non-steroidal alcohols. The enzyme has several biological roles, which are implicated in the cholesterol metabolism, the bacterial pathogenesis, and the biosynthesis of macrolide antifungal antibiotics. Cholesterol oxidase has been reported from a variety of microorganisms, mostly from actinomycetes. We recently reported cholesterol oxidases from gram-negative bacteria such as Burkholderia and Chromobacterium. These enzymes possess thermal, detergent, and organic solvent tolerance. There are two forms of cholesterol oxidase, one containing a flavin adenine dinucleotide cofactor non-covalently bound to the enzyme (class I) and the other containing the cofactor covalently linked to the enzyme (class II). These two enzymes have no significant sequence homology. The phylogenetic tree analyses show that both class I and class II enzymes can be further divided into at least two groups.
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References
Alexander D, Fisher J (1995) A convenient synthesis of 7 alpha-hydroxycholest-4-en-3-one by the hydroxypropyl-beta-cyclodextrin-facilitated cholesterol oxidase oxidation of 3 beta, 7 alpha-cholest-5-ene-3, 7-diol. Steroids 60:290–294
Allain CC, Poon LS, Chan CSG, Richmond W, Fu PC (1974) Enzymatic determination of total serum cholesterol. Clin Chem 20:470–475
Aono R, Doukyu N, Kobayashi H, Nakajima H, Horikoshi K (1994) Oxidative bioconversion of cholesterol by Pseudomonas sp. strain ST-200 in a water-organic solvent two-phase system. Appl Environ Microbiol 60:2518–2523
Aparicio JF, Martín JF (2008) Microbial cholesterol oxidases: bioconversion enzymes or signal proteins? Mol Biosyst 4:804–809
Arima K, Nagasawa M, Bae M, Tamura G (1969) Microbial transformation of sterols. Part I. Decomposition of cholesterol by microorganisms. Agr Biol Chem 33:1636–1643
Arya SK, Datta M, Singh SP, Malhotra BD (2007) Biosensor for total cholesterol estimation using N-(2-aminoethyl)-3-aminopropyltrimethoxysilane self-assembled monolayer. Anal Bioanal Chem 389:2235–2242
Basu AK, Chattopadhyay P, Roychoudhuri U, Chakraborty R (2007) Development of cholesterol biosensor based on immobilized cholesterol esterase and cholesterol oxidase on oxygen electrode for the determination of total cholesterol in food samples. Bioelectrochemistry 70:375–379
Biellmann JF (2001) Resolution of alcohols by cholesterol oxidase from Rhodococcus erythropolis: lack of enantiospecificity for the steroids. Chirality 13:34–39
Bru R, Sánchez-Ferrer A, García-Carmona F (1989) Characterization of cholesterol oxidase activity in AOT-isooctane reverse micelles and its dependence on micelle size. Biotech Lett 11:237–242
Brzostek A, Dziadek B, Rumijowska-Galewicz A, Pawelczyk J, Dziadek J (2007) Cholesterol oxidase is required for virulence of Mycobacterium tuberculosis. FEMS Microbiol Lett 275:106–112
Caldinelli L, Iametti S, Barbiroli A, Bonomi F, Fessas D, Molla G, Pilone MS, Pollegioni L (2005) Dissecting the structural determinants of the stability of cholesterol oxidase containing covalently bound flavin. J Biol Chem 280:22572–22581
Cheetham PS, Dunnill P, Lilly MD (1982) The characterization and interconversion of three forms of cholesterol oxidase extracted from Nocardia rhodochrous. Biochem J 201:515–521
Cho HJ, Choi KP, Yamashita M, Morikawa H, Murooka Y (1995) Introduction and expression of the Streptomyces cholesterol oxidase gene (choA), a potent insecticidal protein active against boil weevil larvae, into tobacco cells. Appl Microbiol Biotechnol 44:133–138
Corbin D, Greenplate J, Wong E, Purcell J (1994) Cloning of an insecticidal cholesterol oxidase gene and its expression in bacteria and in plant protoplasts. Appl Environ Microbiol 60:4239–4244
Corbin DR, Grebenok RJ, Ohnmeiss TE, Greenplate JT, Purcell JP (2001) Expression and chloroplast targeting of cholesterol oxidase in transgenic tobacco plants. Plant Physiol 126:1116–1128
Coulombe R, Yue KQ, Ghisla S, Vrielink A (2001) Oxygen access to the active site of cholesterol oxidase through a narrow channel is gated by an Arg-Glu pair. J Biol Chem 276:30435–30441
Croteau N, Vrielink A (1996) Crystallization and preliminary X-ray analysis of cholesterol oxidase from Brevibacterium sterolicum containing covalently bound FAD. J Struct Biol 116:317–319
Dieth S, Tritsch D, Biellmann J-F (1995) Resolution of allylic alcohols by cholesterol oxidase isolated from Rhodococcus erythropolis. Tetrahedron Lett 36:2243–2246
Doukyu N, Aono R (1998) Purification of extracellular cholesterol oxidase with high activity in the presence of organic solvents from Pseudomonas sp. ST-200. Appl Environ Microbiol 64:1929–1932
Doukyu N, Aono R (1999) Two moles of O2 consumption and one mole of H2O2 formation with cholesterol peroxidation by cholesterol oxidase from Pseudomonas sp. ST-200. Biochem J 341:621–627
Doukyu N, Aono R (2001) Cloning, sequence analysis and expression of a gene encoding an organic solvent- and detergent-tolerant cholesterol oxidase of Burkholderia cepacia strain ST-200. Appl Microbiol Biotechnol 57:146–152
Doukyu N, Kobayashi H, Nakajima H, Aono R (1996) Control with organic solvents of efficiency of persolvent fermentation by Pseudomonas sp. strain ST-200. Biosci Biotech Biochem 60:1612–1616
Doukyu N, Shibata K, Ogino H, Sagermann M (2008) Purification and characterization of Chromobacterium sp. DS-1 cholesterol oxidase with thermal, organic solvent, and detergent tolerance. Appl Microbiol Biotechnol 80:59–70
Doukyu N, Shibata K, Ogino H, Sagermann M (2009) Cloning, sequence analysis, and expression of a gene encoding Chromobacterium sp. DS-1 cholesterol oxidase. Appl Microbiol Biotechnol 82:479–490
Ernst ND, Cleeman JI (2002) National cholesterol education program keeps a priority on lifestyle modification to decrease cardiovascular disease risk. Curr Opin Lipidol 13:69–73
Fujishiro K, Uchida H, Shimokawa K, Nakano M, Sano F, Ohta T, Kayahara N, Aisaka K, Uwajima T (2002) Purification and properties of a new Brevibacterium sterolicum cholesterol oxidase produced by E. coli MM294/pnH10. FEMS Microbiol Lett 215:243–248
Fukuyama M, Miyake Y (1979) Purification and some properties of cholesterol oxidase from Schizophyllum commune with covalently bound flavin. J Biochem 85:1183–1193
Guo LW, Wilson WK, Pang J, Shackleton CH (2003) Chemical synthesis of 7- and 8-dehydro derivatives of pregnane-3, 17alpha, 20-triols, potential steroid metabolites in Smith-Lemli-Opitz syndrome. Steroids 68:31–42
Hino K, Nakamura M, Nakanishi K, Manabe M (1996) A new method for the homogeneous assay of serum HDL. Clinical Chem 42:296–299
Inouye Y, Tagnchi K, Fujii A, Ishimaru K, Nakamura S, Nomi R (1982) Purification and characterization of extracellular 3β-hydroxysteroid oxidase produced by Streptoverticillium cholesterolieum. Chem Pharm Bull 30:951–958
Isobe K, Shoji K, Nakanishi Y, Yokoe M, Wakao N (2003) Purification and some properties of cholesterol oxidase stable in detergents from gamma-proteobacterium Y-134. J Biosci Bioeng 95:257–263
Johnson TL, Somkuti GA (1991) Isolation of cholesterol oxidase from Rhodococcus equi ATCC33706. Biotechnol Appl Biochem 13:196–204
Kamei T, Takiguchi Y, Suzuki H, Matsuzaki M, Nakamura S (1978) Purification of 3β-hydroxysteroid oxidase of Streptomyces violascens origin by affinity chromatography on cholesterol. Chem Pharm Bull 26:2799–2804
Kazandjian RZ, Durdich JS, Kilbanov AM (1986) Enzymatic analysis in organic solvents. Biotechnol Bioeng 28:417–421
Khmelnitsky YL, Hilhorst R, Veeger C (1988) Detergentless microemulsions as media for enzymatic reactions. Cholesterol oxidation catalyzed by cholesterol oxidase. Eur J Biochem 176:265–271
Kreit J, Lefebvre G, Germain P (1994) Membrane-bound cholesterol oxidase from Rhodococcus sp. cells. Production and extraction. J Biotechnol 33:271–282
Laane C, Boeren S, Vos K, Veegar C (1987) Rules for optimization of biocatalysis in organic solvents. Biotechnol Bioeng 30:81–87
Ladrón N, Fernández M, Agüero J, González Zörn B, Vázquez-Boland JA, Navas J (2003) Rapid identification of Rhodococcus equi by a PCR assay targeting the choE gene. J Clin Microbiol 41:3241–3245
Lange Y, Ye J, Steck TL (2005) Activation of membrane cholesterol by displacement from phospholipids. J Biol Chem 280:36126–36131
Lartillot S, Kedziora P (1990) Production, purification and some properties of cholesterol oxidase from a Streptomyces sp. Prep Biochem 20:51–62
Lee KM, Biellmann JF (1986) Cholesterol oxidase in microemulsion: enzymatic activity on a substrate of low water solubility and inactivation by hydrogen peroxide. Bioorganic Chem 14:262–273
Lee K, Biellmann J (1988) Cholesterol conversion to δ4 -cholestenone by cholesterol oxidase in polyphasic systems: extension to the selective oxidation of 7β-hydroxycholesterol. Tetrahedron 44:1135–1139
Lee S, Rhee H, Tae W, Shin J, Park B (1989) Purification and characterization of cholesterol oxidase from Pseudomonas sp. and taxonomic study of the strain. Appl Microbiol Biotechnol 31:542–546
Li J, Vrielink A, Brick P, Blow DM (1993) Crystal structure of cholesterol oxidase complexed with a steroid substrate: implications for flavin adenine dinucleotide dependent alcohol oxidases. Biochemistry 32:11507–11515
Liu WH, Meng MH, Chen KS (1988) Purification and some properties of cholesterol oxidases produced by an inducible and a constitutive mutant of Arthrobacter simplex. Agric Biol Chem 52:413–418
MacLachlan J, Wotherspoon ATL, Ansell RO, Brooks CJW (2000) Cholesterol oxidase: sources, physical properties and analytical applications. J Steroid Biochem Mol Biol 72:169–195
Mahato SB, Garai S (1997) Advances in microbial steroid biotransformation. Steroids 62:332–345
Martin PA, Gundersen-Rindal D, Blackburn M, Buyer J (2007) Chromobacterium subtsugae sp. nov., a betaproteobacterium toxic to Colorado potato beetle and other insect pests. Int J Syst Evol Microbiol 57:993–999
Massey V (1994) Activation of molecular oxygen by flavins and flavoproteins. J Biol Chem 269:22459–22462
Mendes MV, Recio E, Antón N, Guerra SM, Santos-Aberturas J, Martín JF, Aparicio JF (2007) Cholesterol oxidases act as signaling proteins for the biosynthesis of the polyene macrolide pimaricin. Chem Biol 14:279–290
Molnár I, Hayashi N, Choi K, Yamamoto H, Yamashita M, Murooka Y (1993) Bacterial cholesterol oxidases are able to act as flavoprotein-linked ketosteroid monooxygenases that catalyse the hydroxylation of cholesterol to 4-cholesten-6-ol-3-one. Mol Microbiol 7:419–428
Nagasawa M, Bae M, Tamura G, Arima K (1969) Microbial transformation of sterols. Part II. Cleavage of sterol side chains by microorganisms. Agr Biol Chem 33:1644–1650
Navas J, Gonzalez-Zorn B, Ladron N, Garrido P, Vazquez-Boland JA (2001) Identification and mutagenesis by allelic exchange of choE, encoding a cholesterol oxidase from the intracellular pathogen Rhodococcus equi. J Bacteriol 183:4796–4805
Nishiya Y, Harada N, Teshima SI, Yamashita M, Fujii I, Hirayama N, Murooka Y (1998) Improvement of thermal stability of Streptomyces cholesterol oxidase by random mutagenesis and a structural interpretation. Protein Eng 10:231–235
Ohta T, Fujishiro K, Yamaguchi K, Tamura Y, Aisaka K, Uwajima T, Hasegawa M (1991) Sequence of gene choB encoding cholesterol oxidase of Brevibacterium sterolicum: comparison with choA of Streptomyces sp. SA-COO. Gene 103:93–96
Okada M, Matsui H, Ito Y, Fujiwara A, Inano K (1998) Low-density lipoprotein cholesterol can be chemically measured: a new superior method. J Lab Clin Med 132:195–201
Pei Y, Dupont C, Sydor T, Haas A, Prescott JF (2006) Cholesterol oxidase (ChoE) is not important in the virulence of Rhodococcus equi. Vet Microbiol 118:240–246
Piubelli L, Pedotti M, Molla G, Feindler-Boeckh S, Ghisla S, Pilone MS, Pollegioni L (2008) On the oxygen reactivity of flavoprotein oxidases: an oxygen access tunnel and gate in Brevibacterium sterolicum cholesterol oxidase. J Biol Chem 283:24738–24747
Pollegioni L, Gadda G, Ambrosius D, Ghisla S, Pilone MS (1999) Cholesterol oxidase from Streptomyces hygroscopicus and Brevibacterium sterolicum: effect of surfactants and organic solvents on activity. Biotechnol Appl Biochem 30:27–33
Purcell JP, Greenplate JT, Jennings MG (1993) Cholesterol oxidase: a potent insecticidal protein active against Boll weevil larvae. Biochem Biophys Res Commun 196:1406–1413
Randolph TW, Clark DS, Blanch HW, Prausnitz JM (1988) Enzymatic oxidation of cholesterol aggregates in supercritical carbon dioxide. Science 239:387–390
Richmond W (1973) Preparation and properties of a cholesterol oxidase from Nocardia sp. and its application to the enzymatic assay of cholesterol in serum. Clin Chem 19:1350–1356
Rouquette-Jazdanian AK, Pelassy C, Breittmayer JP, Aussel C (2006) Revaluation of the role of cholesterol in stabilizing rafts implicated in T cell receptor signaling. Cell Signal 18:105–122
Sampson NS, Kass IJ (1997) Isomerization, but not oxidation, is suppressed by a single point mutation, E361Q, in the reaction catalyzed by cholesterol oxidase. J Am Chem Soc 119:855–862
Sampson NS, Vrielink A (2003) Cholesterol oxidases: a study of nature’s approach to protein design. Acc Chem Res 36:713–722
Sedlaczek L (1988) Biotransformation of steroids. Crit Rev Biotechnol 7:187–236
Shirai K, Nema T, Hiroh Y, Itoh Y, Miyashita Y, Watanabe H (1997) Clinical efficacy of the direct assay method using polymers for serum high density lipoprotein cholesterol. J Clin Lab Anal 11:82–86
Shirokane Y, Nakamura K, Mizusawa K (1977) Purification and some properties of an extracellular 3-hydroxysteroid oxidase produced by Corynebacterium cholesterolicum. J Ferment Technol 55:337–345
Simons K, Ikonen E (1997) Functional rafts in cell membranes. Nature 387:569–572
Smith AJ, Brooks CJW (1974) Application of cholesterol oxidase in the analysis of steroids. J Chromatog 101:373–378
Smith AJ, Brooks CJW (1977) The mechanism of the isomerization of Cholest-5-en-3-one to cholest-4-en-3-one by cholesterol oxidase. Biochem Soc Trans 5:1088–1090
Smith M, Zahnley J, Pfeifer D, Goff D (1993) Growth and cholesterol oxidation by Mycobacterium species in tween 80 medium. Appl Environ Microbiol 59:1425–1429
Sojo M, Bru R, Lopez-Molina D, Garcia-Carmona F, Argüelles J (1997) Cell-linked and extracellular cholesterol oxidase activities from Rhodococcus erythropolis. Isolation and physiological characterization. Appl Microbiol Biotechnol 47:583–589
Stadtman TC, Cherkes A, Anfinsen CB (1954) Studies on the microbiological degradation of cholesterol. J Biol Chem 206:511–523
Tabatabaei Yazdi M, Zahraei M, Aghaepour K, Kamranpour N (2001) Purification and partial characterization of a cholesterol oxidase from Streptomyces fradiae. Enzyme Microb Technol 8:410–414
Teng JI, Smith LL (1996) Sterol peroxidation by Pseudomonas fluorescens cholesterol oxidase. Steroids 61:627–633
Tomioka H, Kagawa M, Nakamura S (1976) Some enzymatic properties of 3β-hydroxysteroid oxidase produced by Streptomyces violascens. J Biochem 79:903–915
Toyama M, Yamashita M, Yoneda M, Zaborowski A, Nagato M, Ono H, Hirayama N, Murooka Y (2002) Alteration of substrate specificity of cholesterol oxidase from Streptomyces sp. by site-directed mutagenesis. Protein Eng 15:477–484
Toyobo Corp. Ltd. (2000) Cholesterol oxidase from Streptomyces sp. Toyobo Enzymes 2000/2001:63–66
Turfitt GE (1944) The microbiological degradation of steroids: 2. Oxidation of cholesterol by Proactinomyces spp. Biochem J 38:492–496
Turfitt GE (1948) The microbiological degradation of steroids: 4. Fission of the steroid molecule. Biochem J 42:376–383
Uwajima T, Yagi H, Terada O (1973) Isolation and crystallization of extracellular 3β-hydroxysteroid oxidase of Brevibacterium sterolicum nov. sp. Agric Biol Chem 37:2345–2350
Uwajima T, Yagi H, Nakamura S, Terada O (1974) Properties of crystalline 3β-hydroxysteroid oxidase of Brevibacterium sterolicum. Agric Biol Chem 38:1149–1156
Vidal JC, Espuelas J, Castillo JR (2004) Amperometric cholesterol biosensor based on in situ reconstituted cholesterol oxidase on an immobilized monolayer of flavin adenine dinucleotide cofactor. Anal Biochem 333:88–98
Vrielink A, Lloyd LF, Blow DM (1991) Crystal structure of cholesterol oxidase from Brevibacterium sterolicum refined at 1.8 Å resolution. J Mol Biol 219:533–554
Wilmanska D, Sedlaczek L (1988) The kinetics of biosynthesis and some properties of an extracellular cholesterol oxidase produced by Arthrobacter sp. IM 79. Acta Microbiol Polon 37:45–51
Wilmanska D, Dziadek J, Sajduda A, Milczarek K, Jaworski A, Murooka Y (1995) Identification of cholesterol oxidase from fast-growing mycobacterial strains and Rhodococcus sp. J Ferment Bioeng 79:119–124
Xu X, Bittman R, Duportail G, Heissler D, Vilcheze C, London E (2001) Effect of the structure of natural sterols and sphingolipids on the formation of ordered sphingolipid/sterol domains (rafts). Comparison of cholesterol to plant, fungal, and disease-associated sterols and comparison of sphingomyelin, cerebrosides, and ceramide. J Biol Chem 276:33540–33546
Yamashita M, Toyama M, Ono H, Fujii I, Hirayama N, Murooka Y (1998) Separation of the two reactions, oxidation and isomerization, catalyzed by Streptomyces cholesterol oxidase. Protein Eng 11:1075–1081
Yue K, Kass IJ, Sampson N, Vrielink A (1999) Crystal structure determination of cholesterol oxidase from Streptomyces and structural characterization of key active site mutants. Biochemistry 38:4277–4286
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Doukyu, N. Characteristics and biotechnological applications of microbial cholesterol oxidases. Appl Microbiol Biotechnol 83, 825–837 (2009). https://doi.org/10.1007/s00253-009-2059-8
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DOI: https://doi.org/10.1007/s00253-009-2059-8