Chemical composition and evaluation of antileishmanial and cytotoxic activities of the essential oil from leaves of Cryptocarya aschersoniana Mez. (Lauraceae Juss.)

Andrade, Priscila Mileide de; Melo, Daiana Caetano de; Alcoba, Ana Elisa Teixeira; Júnior, Walnir Gomes Ferreira; Pagotti, Mariana Cintra; Magalhães, Lizandra G.; Santos, Tainá Caroline L Dos; Crotti, Antônio Eduardo Miller; Alves, Cássia Cristina Fernandes; Miranda, Mayker Lázaro Dantas

doi:10.1590/0001-3765201820170332

Cited by 28 publications

(23 citation statements)

References 24 publications

(10 reference statements)

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“…In the essential oil obtained from S. terebinthifolia, 37 compounds were identified; germacrene B being the most abundant, comprising 14.9 % of the total, followed by δ-cadinene (7.6 %) and βelemene Different from the results obtained, a study with C. aschersoniana collected in Southeastern Brazil showed that the fraction of monoterpenes was predominant. [21] Studies of the genus Cinnamomum do not report the presence of major compounds similar to those described in this study, but common compounds were described by Sriramavaratharajan et al [22] in the essential oil of C. agasthyamalayanum: α-pinene (5.3 %), bicyclogermacrene (2.8 %), and traces of sabinene and α-copaene. In contrast, a study with S. terebinthifolia essential oil indicated δ-3-carene, αpinene, trans-ocimene, among others, as major compounds.…”

Section: Chemical Analysis Of Essential Oilssupporting

confidence: 40%

Antichemotactic and Antifungal Action of the Essential Oils from Cryptocarya aschersoniana, Schinus terebinthifolia, and Cinnamomum amoenum

Maciel

Lacerda

Danielli

et al. 2019

Chemistry & Biodiversity

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The purpose of this work was to determine the chemical composition and evaluate the antichemotactic, antioxidant, and antifungal activities of the essential oil obtained from the species Cryptocarya aschersoniana Mez, Cinnamomum amoenum (Ness & Mart.) Kosterm., and Schinus terebinthifolia Raddi, as well as the combination of C. aschersoniana essential oil and terbinafine against isolates of dermatophytes. Allo‐aromadendrene, bicyclogermacrene, and germacrene B were identified as major compounds in essential oils. The essential oil of C. aschersoniana shown 100 % inhibitory effect on leukocyte migration at the concentration of 10 μg/mL while S. terebinthifolia oil presented 80.1 % inhibitory effect at the same concentration. Only S. terebinthifolia oil possessed free‐radical‐scavenging activity which indicates its antioxidant capacity. The essential oils were also tested against fungal isolates of dermatophyte species (Trichophyton rubrum, Trichophyton mentagrophytes, Microsporum canis and Microsporum gypseum), resulting in MIC ranging from 125 μg/mL to over 500 μg/mL. C. aschersoniana oil combined with terbinafine resulted in an additive interaction effect. In this case, the essential oil may act as a complement to conventional therapy for the topical treatment of superficial fungal infections, mainly because it is associated with an anti‐inflammatory effect.

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Section: Chemical Analysis Of Essential Oilssupporting

confidence: 40%

Antichemotactic and Antifungal Action of the Essential Oils from Cryptocarya aschersoniana, Schinus terebinthifolia, and Cinnamomum amoenum

Maciel

Lacerda

Danielli

et al. 2019

Chemistry & Biodiversity

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“…Antiparasitic activities, mostly antileishmanial effects, represent the second largest group of results, and are supported by other studies showing these properties of various EOs, such as Cryptocarya aschersoniana EO [2] and others.…”

Section: Antiparasitic Activitysupporting

confidence: 56%

Piper aduncum essential oil: a promising insecticide, acaricide and antiparasitic. A review

et al. 2021

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Several studies have assessed the potential of essential oils as substitutes for synthetic pesticides, in order to counter insect resistance to commercial pesticides. Piper aduncum L. is a very common shrub in the Amazon Rainforest and in other subtropical areas. The objective of this review was to analyse the existing information on P. aduncum essential oil as a raw material for new bioproducts for sustainable pest disease management. With this review, we collected and critically analysed 59 papers, representing all the studies that aimed to evaluate the essential oil properties of this species as an insecticide, acaricide and antiparasitic. The chemical composition differs depending on the origin, although phenylpropanoid dillapiole is the most cited component, followed by myristicin, 1,8-cineole and β-ocimene. Between the acaricidal, antiparasitic and synergistic activities, the insecticidal effects are highly promising, with optimal results against the malaria vector Aedes aegypti, with an LC50 that ranges between 57 and 200μg/mL. Acaricidal activity has mainly been reported against Tetranychus urticae, showing an LC50 that ranges between 5.83 and 7.17μg/mL. Antiparasitic activity has predominately been found on Leishmania amazonensis, and antipromastigote activity has been found to be between 23.8 and 25.9μg/mL. Concerning the synergistic effect between dillapiole and synthetic insecticides, four studies on Spodoptera frugiperda found promising results with cypermethrin. In this review, we highlighted the potential of P. aduncum essential oil as a biopesticide, also focusing on the lack of information about applied research. We also provide suggestions for future investigations.

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“…Cryptocarya aschersoniana : The EO of C. aschersoniana obtained by hydrodistillation presented monoterpene hydrocarbons (48.8%), limonene (42.3%), linalool (9.7%) and nerolidol (8.6%) as predominant constituents. Its EO had high activity against L. amazonensis promastigote forms (IC 50 4.46 μ g mL −1 ); however, it also demonstrated relatively high cytotoxicity against mouse peritoneal macrophages (CC 50 7.71 μ g mL −1 ) (Andrade et al ., 2018).…”

Section: Discussionmentioning

confidence: 99%

Effect of essential oils on Leishmania amazonensis: a systematic review

et al. 2020

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This systematic review investigated the evidence for the therapeutic potential of essential oils (EOs) against Leishmania amazonensis. We searched available scientific publications from 2005 to 2019 in the PubMed and Web of Science electronic databases, according to PRISMA statement. The search strategy utilized descriptors and free terms. The EOs effect of 35 species of plants identified in this systematic review study, 45.7% had half of the maximal inhibitory concentration (IC50) 10 < IC50 ⩽ 50 μg mL−1 and 14.3% had a 10 < IC50μg mL−1 for promastigote forms of L. amazonensis. EOs from Cymbopogon citratus species had the lowest IC50 (1.7 μg mL−1). Among the plant species analyzed for activity against intracellular amastigote forms of L. amazonensis, 39.4% had an IC50 10 < IC50 ⩽ 50 μg mL−1, and 33.3% had an IC50 10 < IC50μg mL−1. Aloysia gratissima EO showed the lowest IC50 (0.16 μg mL−1) for intracellular amastigotes. EOs of Chenopodium ambrosioides, Copaifera martii and Carapa guianensis, administered by the oral route, were effective in reducing parasitic load and lesion volume in L. amazonensis-infected BALB/c mice. EOs of Bixa orellana and C. ambrosioides were effective when administered intraperitoneally. Most of the studies analyzed in vitro and in vivo for the risk of bias showed moderate methodological quality. These results indicate a stimulus for the development of new phytotherapy drugs for leishmaniasis treatment.

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Chemical composition and evaluation of antileishmanial and cytotoxic activities of the essential oil from leaves of Cryptocarya aschersoniana Mez. (Lauraceae Juss.)

Cited by 28 publications

References 24 publications

Antichemotactic and Antifungal Action of the Essential Oils from Cryptocarya aschersoniana, Schinus terebinthifolia, and Cinnamomum amoenum

Antichemotactic and Antifungal Action of the Essential Oils from Cryptocarya aschersoniana, Schinus terebinthifolia, and Cinnamomum amoenum

Piper aduncum essential oil: a promising insecticide, acaricide and antiparasitic. A review

Effect of essential oils on Leishmania amazonensis: a systematic review

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