1,8‐Cineole: Chemical and Biological Oxidation Reactions and Products

Azerad, Robert

doi:10.1002/cplu.201300422

Cited by 18 publications

(16 citation statements)

References 121 publications

(335 reference statements)

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“…[ 8 ] The chemical oxidation of Euc has been carried out by strong oxidizing reagents to give oxo compounds (3‐oxo‐1,8‐cineole, 5‐oxo‐1,8‐cineole, and 3,5‐dioxo‐1,8‐cineole). [ 9 ] The sites of oxidation are the carbon 3 and/or 5. The encapsulation of Euc can be considered as a potential solution to overcome the drawbacks related to its physico‐chemical properties.…”

Section: Introductionmentioning

confidence: 99%

Retention of Eucalyptol, a Natural Volatile Insecticide, in Delivery Systems Based on Hydroxypropyl‐β‐Cyclodextrin and Liposomes

Gharib

Jemâa

Charcosset

et al. 2020

Euro J Lipid Sci & Tech

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Eucalyptol (Euc) is a natural monoterpene with insecticide effects. Being highly volatile and sensitive to ambient conditions, its encapsulation would enlarge its application. Euc-loaded conventional liposomes (CL), cyclodextrin/drug inclusion complex, and drug-in-cyclodextrin-in-liposomes (DCL) are prepared to protect Euc from degradation, reduce its evaporation, and provide its controlled release. The liposomal suspension is freeze-dried using hydroxypropyl--cyclodextrin (HP--CD) as cryoprotectant. The liposomes are characterized before and after freeze-drying. The effect of Euc on the fluidity of liposomal membrane is also examined. A release study of Euc from delivery systems, in powder and reconstituted forms, is performed by multiple head extraction at 60°C after 6 months of storage at 4°C. CL and DCL suspensions are homogeneous, show nanometric vesicles size, spherical shape, and negative surface charge before and after freeze-drying. Moreover, HP--CD does not affect the fluidity of liposomes. CL formulations present a weak encapsulation for Euc. The loading capacity of eucalyptol in DCL is 38 times higher than that in CL formulation. In addition, freeze-dried DCL and HP--CD/Euc inclusion complex show a higher retention of eucalyptol than CL delivery system. Both carrier systems HP--CD/Euc and Euc-loaded DCL decrease Euc evaporation and improve its retention. Practical Applications: Eucalyptol is a natural insecticide. It is highly volatile and poorly soluble in water. To enlarge its application, its encapsulation in three delivery systems (conventional liposomes, cyclodextrin/drug inclusion complex, combined system composed of cyclodextrin inclusion complex and liposome) is studied. In this paper it is proved that cyclodextrin/eucalyptol inclusion complex and eucalyptol-in-cyclodextrin-in-liposome are effective delivery systems for encalyptol encapsulation, retention, and release.

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Section: Introductionmentioning

confidence: 99%

Retention of Eucalyptol, a Natural Volatile Insecticide, in Delivery Systems Based on Hydroxypropyl‐β‐Cyclodextrin and Liposomes

Gharib

Jemâa

Charcosset

et al. 2020

Euro J Lipid Sci & Tech

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“…The monoterpene 1,8-cineole 1 (1,3,3-trimethyl-2-oxabicyclo[2,2,2]octane) is the major component of eucalyptus oil, while 1,4-cineole 2 (4-methyl-1-propan-2-yl-7oxabicyclo[2.2.1]heptane) is found in some plant oils and is also present in lime juice ( Fig. 1) [8][9][10]. Both cineoles are achiral but a single hydroxylation usually leads to the generation of at least two stereogenic centres.…”

Section: Introductionmentioning

confidence: 99%

“…The oxygenated derivatives of both are important chiral synthons, intermediates in the synthesis of herbicides (e.g. cinmethylin), antimicrobials and fragrances [7,9,[11][12][13][14][15][16][17][18][19][20]. The chemical synthesis of hydroxylated cineole analogues is difficult and requires the use of highly reactive, non-environmentally friendly reagents that usually generate a mixture of racemic products.…”

Section: Introductionmentioning

confidence: 99%

Selective hydroxylation of 1,8- and 1,4-cineole using bacterial P450 variants

Lee

Wong

Stok

et al. 2019

Archives of Biochemistry and Biophysics

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This study has evaluated the use of the P450 metalloenzymes CYP176A1, CYP101A1 and CYP102A1, together with engineered protein variants of CYP101A1 and CYP102A1, to alter the regioselectivity of 1,8-and 1,4-cineole hydroxylation. CYP176A1 was less selective for 1,4-cineole oxidation when compared to its preferred substrate, 1,8-cineole. The CYP102A1 variants significantly improved the activity over the WT enzyme for oxidation of 1,4-and 1,8-cineole. The CYP102A1 R47L/Y51F/A74G/F87V/L188Q mutant generated predominantly (1S)-6α-hydroxy-1,8-cineole (78% e.e.) from 1,8-cineole. Oxidation of 1,4-cineole by the CYP102A1 R47L/Y51F/F87A/I401P variant generated the 3α product in >90% yield. WT CYP101A1 formed a mixture metabolites with 1,8-cineole and very little product was generated with 1,4-cineole. In contrast the F87W/Y96F/L244A/V247L and F87W/Y96F/L244A variants of CYP101A1 favoured formation of 5α-hydroxy-1,8-cineole (>88%, 1S 86% e.e.) while the F87V/Y96F/L244A variant generated (1S)-6α-hydroxy-1,8-cineole in excess (90% regioselective, >99% e.e.). The CYP101A1 F87W/Y96F/L244A/V247L and F87W/Y96F/L244A mutants improved the oxidation of 1,4-cineole generating an excess of the 3α metabolite (1S >99% e.e. with the latter). The CYP101A1 F87L/Y96F variant also improved the oxidation of this substrate but shifted the site of oxidation to the isopropyl group, (8-hydroxy-1,4-cineole). When this 8hydroxy metabolite was generated in significant quantities desaturation of C8-C9 to the corresponding alkene was also detected. Highlights CYP176A1 was less selective for 1,4-cineole oxidation compared to 1,8-cineole. CYP102A1 and CYP101A1 variants were used to generate (1S)-6α-hydroxy-1,8-cineole in excess (>90%). Other mutant forms of CYP101A1 were selective for 5α-hydroxy-1,8-cineole (>88%, 86% e.e.). Oxidation of 1,4-cineole by CYP102A1 and CYP101A1 mutants generated the 3α product in >90% yield. The CYP101A1 F87L/Y96F variant favoured 8-hydroxy-1,4-cineole formation. The formation of 8-hydroxy-1,4cineole was accompanied by desaturation to a C8-C9 alkene.

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“…Oxidation by these enzymes results in a range of oxidation products. CYP101A1 produces predominantly (1 S )‐3α‐hydroxy‐1,8‐cineole and/or its enantiomer (1 S )‐5α‐hydroxy‐1,8‐cineole, whilst the main product of CYP101B1‐catalyzed oxidation is (1 S )‐3α‐hydroxy‐1,8‐cineole (nomenclature of hydroxy‐1,8‐cineoles is assigned as recently proposed by Azerad) . CYP176A1 from Citrobacter braakii has been shown to regiospecifically hydroxylate 1,8‐cineole at position 6 to afford (1 R )‐6β‐hydroxy‐1,8‐cineole .…”

Section: Introductionmentioning

confidence: 99%

X‐ray crystal structure of cytochrome P450 monooxygenase CYP101J2 fromSphingobium yanoikuyaestrain B2

et al. 2017

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The cytochrome P450 monooxygenases (P450s) catalyze a vast array of oxygenation reactions that can be useful in biocatalytic applications. CYP101J2 from Sphingobium yanoikuyae is a P450 that catalyzes the hydroxylation of 1,8-cineole. Here we report the crystallization and X-ray structure elucidation of recombinant CYP101J2 to 1.8 Å resolution. The CYP101J2 structure shows the canonical P450-fold and has an open conformation in the absence of substrate. Analysis of the structure revealed that CYP101J2, in the absence of substrate, forms a well-ordered substrate-binding channel that suggests a unique form of substrate guidance in comparison to other bacterial 1,8-cineole-hydroxylating P450 enzymes. Proteins 2017; 85:945-950. © 2016 Wiley Periodicals, Inc.

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1,8‐Cineole: Chemical and Biological Oxidation Reactions and Products

Cited by 18 publications

References 121 publications

Retention of Eucalyptol, a Natural Volatile Insecticide, in Delivery Systems Based on Hydroxypropyl‐β‐Cyclodextrin and Liposomes

Retention of Eucalyptol, a Natural Volatile Insecticide, in Delivery Systems Based on Hydroxypropyl‐β‐Cyclodextrin and Liposomes

Selective hydroxylation of 1,8- and 1,4-cineole using bacterial P450 variants

X‐ray crystal structure of cytochrome P450 monooxygenase CYP101J2 fromSphingobium yanoikuyaestrain B2

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