Phytochemical Diversity and Pharmacological Properties of <i>Rhus coriaria</i>

Elagbar, Zaha A.; Shakya, Ashok K.; Barhoumi, Lina M.; Al‐Jaber, Hala I.

doi:10.1002/cbdv.201900561

Cited by 32 publications

(27 citation statements)

References 72 publications

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“…Only EO-5 showed good percentages of β-caryophyllene (10.1%) and cembrene (8.4%) followed by palmitic acid (9.4%) and carvone (9.1%). It is also well reported that the β-caroyophyllene, cembrene, n-nonanal, and p-anisaldehyde were the major compounds too [28], but not in our samples.…”

Section: Resultssupporting

confidence: 68%

“…The mean IC 50 values of samples (1-8) were 175.2, 310.5, 169.5, 221.5, 165.5, 195.0, 225.0, and 165.5 µg/mL respectively, which were compared with the standard antioxidant rutin (IC 50 2.93 µg/mL). The potential antioxidant activity exhibited by the essential oil may be due to the presence of a variety of chemical compounds like β-caryophyllene [36,37], (E)-cinnamaldehyde [38], carvacrol [39], carvone [40], cembrene [41], eugenol [42], methyl palmitate, palmitic acid, oleic acid [28,43], α-copaene [44], α-himachalene [45], α-humulene [46], α-terpineol [47], and δ-cadinene [48] which are present in the these samples. All these compounds are collectively responsible for antioxidant activity.…”

Section: The Antioxidant Activitymentioning

confidence: 99%

“…They reported also the presence of marker compounds which are non-terpenes like nonanal and p-anisaldehyde [17,27], sesquiterpene hydrocarbons such as (E)-caryophyllene [23,24] and the diterpene cembrene [24,27]. Recently, Elagbar et al (2020) reviewed extensively the phytochemical diversity and the pharmacological properties such as antibacterial, antioxidant, hypoglycemic, antimicrobial, antitumor, antiviral, anti-inflammatory, antihepatitis, antiulverigenic, cardioprotective, anticholinesterase, anticancer, anticonvulsant, hepatoprotective, and neuroprotective activities of R. coriaria and other Rhus species [28]. Farag et al (2018) reported 74 volatile emissions in R. coriaria fruits (sumac) and roasted fruits from three different geographical countries (Egypt, Palestine, and Jordan) using the solid phase microextraction (HS-SPME) [29].…”

Section: Introductionmentioning

confidence: 99%

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Volatile Composition and Biological Activity of Jordanian Commercial Samples of R. coriaria L. Fruits

et al. 2021

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The present paper reports the GC-HS-SPME analysis of volatile emission and GC-MS analysis of chemical composition of essential oil of R. coriaria fruits of eight different samples of R. coriaria L. fruits (“sumac” folk name), collected from Jordanian agricultural field and the local market. The analyses show an important variability among the Sumac samples probably due to the origin, cultivation, harvesting period, drying, and conservation of the plant material. The main class of component present in all samples was monoterpenes (43.1 to 72.9%), except for one sample which evidenced a high percentage of sesquiterpene hydrocarbons (38.5%). The oxygenated monoterpenes provided a contribution to total class of monoterpenes ranging from 10.1 to 24.3%. A few samples were rich in monoterpene hydrocarbons. Regarding the single components present in all the volatile emissions, β-caryophyllene was the main compound in most of the analyzed samples, varying from 34.6% to 7.9%. Only two samples were characterized by α-pinene as the main constituent (42.2 and 40.8% respectively). Essential oils were collected using hydro-distillation method. Furfural was the main constituent in almost all the analyzed EOs (4.9 to 48.1%), except in one of them, where β-caryophyllene was the most abundant one. β-caryophyllene ranged from 1.2 to 10.6%. Oxygenated monoterpenes like carvone and carvacrol ranged from 3.2–9.1% and 1.0–7.7% respectively. Cembrene was present in good amount in EO samples EO-2 to EO-8. The antioxidant capacities of the fruit essential oils from R. coriaria were assessed using spectrophotometry to measure free radical scavenger 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical and inhibition of β-carotene bleaching (BCB). The essential oils from the fruits of the different samples of R. coriaria exhibited the MIC value ranging from 32.8 to 131.25 µg/mL against S. aureus ATCC 6538 and 131.25 to 262.5 µg/mL against E. coli ATCC 8739. The MIC values of ciprofloxacin were 0.59 and 2.34 µg/mL against S. aureus ATCC 6538 and E. coli ATCC 8739, respectively.

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Section: Resultssupporting

confidence: 68%

Section: The Antioxidant Activitymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Volatile Composition and Biological Activity of Jordanian Commercial Samples of R. coriaria L. Fruits

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“…In-vitro antibacterial activity of R. coriaria extracts has been previously suggested to be due to the presence of tannins (30). While some of the compounds identi ed in R. coriaria had been reported in the literature (3,5,6,7,16,17) and were in the reaxys.com database, we identi ed the presence of the compound quercetin diglucoside (C 27 H 30 O 17 ) in R. coriaria for the rst time. The other major compounds found were: quercitrin, myricetin glucoside, myricetin rhamnoside, ethyl gallate, ethyl digallate, thea avin, and baccatune.…”

Section: Discussionmentioning

confidence: 82%

“…Those studies found terpenoids, avonoids and hydrolysable tannins as possible active compounds (4,7,9,16). R. coriaria has a number of medicinal effects, exhibiting antidiabetic, anti-in ammatory, anticancer, antioxidant, antiviral, anti-ischemic, hypolipidemic and antibacterial activities (3,5,17). The antibacterial activity of R. coriaria was discovered using different fruit extracts: methanolic, ethanolic and water.…”

Section: Introductionmentioning

confidence: 99%

Rhus Coriaria L. (Sumac) Leaves as an Antibacterial Agent

Joseph¹,

Koltai²,

Ron³

et al. 2021

Preprint

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Background Rhus coriaria L. has various medicinal effects, exhibiting antidiabetic, anti-inflammatory, anticancer, antioxidant, antiviral, anti-ischemic, hypolipidemic and antibacterial activity. Its antibacterial activity has been extensively studied, revealing terpenoids, flavonoids and hydrolysable tannins as the main active compounds. Most of these studies have been performed on fruit, and a few on leaves and seeds. Methods Extract of R. coriaria leaves was fractionated into six fractions by high-performance liquid chromatography (HPLC). Two active fractions (Rc1 and Rc2) were subfractionated into fractions Rs1–3 and Rs4–6, respectively. The active subfraction Rs5 was subjected to LCMS analysis. Antibacterial activity of the extracts was assessed by well and disk-diffusion methods, and minimal inhibitory concentration (MIC) by tetrazolium (TTC) test and minimal bactericidal concentration (MBC) by drop test were determined. Subfraction Rs5 was further incorporated into an eye drop formulation and tested for antibacterial activity, and leaf extract was also tested against the fungus Botrytis cinerea. Results Crude leaf extract, fractions Rc1 and Rc2 and subfractions Rs1–6 showed antibacterial activity, with MIC values ranging from 0.2–3.1 mg/mL and MBC values from 0.3–6.2 mg/mL, depending on the fraction and the bacteria. Subfraction Rs5 had the strongest antibacterial activity with a MIC of 0.4 mg/mL and MBC of 0.6–2 mg/mL, depending on the bacterium being tested. Rs5 incorporated into an eye drop formulation also showed antibacterial activity. The leaf extract further showed antifungal activity against the agricultural pest Botrytis cinerea. Conclusions The crude leaf extract and its fractions exhibited antibacterial and antifungal activity. The antibacterial activity increased in the fractions and subfractions of the leaf extract compared to the crude extract, suggesting enrichment of the active antibacterial compounds during purification. Leaves, which are much more readily available, and in greater quantities than fruit, throughout the year, may therefore serve as an inexpensive and effective source for an antibacterial product that can be used in the food and agricultural industries.

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Chemical Profile of the Pits Oil from the Tunisian ‘Alig’ Cultivar ofPhoenix dactyliferaL.:In VivoWound Healing Potential Evaluation of a Cream Formulated from the Extracted Oil and Insights from Molecular Docking and SAR Analysis

Chhoud

Bagga

Lassoued

et al. 2022

Chemistry & Biodiversity

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Since ancient times the oil from date palm pits (Phoenix dactylifera L.) has been used to heal wounds. In order to prove this traditional usage of the pits, this oil was extracted from the pits of the Tunisian cultivar 'Alig' and its physico-chemical properties and the chemical composition were evaluated. The fatty acid profile, evidenced by GC, allowed to classify this oil as an oleic-myristic acid oil with a clear abundance of oleic acid (53.66 %). 1 H and 13 C-NMR as well as FT-IR analyses confirmed the presence of fatty acids in triglyceride forms. Furthermore, in vivo wound healing activity of a cream formulated from the extracted oil was performed, for the first time, using a rat model and was compared to placebo cream and a commercial formulation, MEBO®. This study showed that the test cream promoted the healing of pressure ulcers better than the placebo cream and the MEBO® ointment. The results showed that this vegetable oil is able to improve the healing of infected wounds in rats, thus supporting its traditional use. The contribution of the main oleic, linoleic and myristic acids that can be derived from enzymatic hydrolysis to the healing activity of the whole pits oil was predicted by in silico study and the calculated pharmacokinetics parameters.

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Phytochemical Diversity and Pharmacological Properties of Rhus coriaria

Cited by 32 publications

References 72 publications

Volatile Composition and Biological Activity of Jordanian Commercial Samples of R. coriaria L. Fruits

Volatile Composition and Biological Activity of Jordanian Commercial Samples of R. coriaria L. Fruits

Rhus Coriaria L. (Sumac) Leaves as an Antibacterial Agent

Chemical Profile of the Pits Oil from the Tunisian ‘Alig’ Cultivar ofPhoenix dactyliferaL.:In VivoWound Healing Potential Evaluation of a Cream Formulated from the Extracted Oil and Insights from Molecular Docking and SAR Analysis

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