Asma Elaguel scite author profile

BackgroundThe present study was focused on the optimization of yield of the essential oil extraction from leaves of Lawsonia inermis, and the determination of chemical composition, antioxidant activities, and lipid peroxydation and antiproliferative effects.MethodsHenna essential oil (HeEO) were extracted by hydrodistillation; the identification of the chemical composition were done by GC/MS method. HeEO was analyzed for antioxidant power in: (1) chemical system by the DPPH test, the ABTS test and the total antioxidant activity test; and (2) in biological system by lipid peroxydation tests (MDA and DC) in cells culture. The cytotoxicity effects of HeEO were assessed using MTT assay against Raji and HeLa cell lines.ResultsThe optimal extraction yield was 6.8 g/100 g d.b. HeEO showed a remarkable anti-oxidant activities including DDPH (42%), ABTS (87%) and the power of ammonium phosphomolybdate (2992 ± 230 mg of HeEO by equivalent to 1 mg of vitamin C in terms of total antioxidant power).ConclusionBeyond notable antioxidant activities of the HeEo, our results showed a significant decrease in the production of ERO in the Raji cell line. The anti-tumor power of the Henna essential oil shows an interesting cytotoxicity effect (IC50 at 0.26 μg/mL for Raji and at 1.43 μg/mL for HeLa) with a total mortality percentage reaching 60%, for both.

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Modeling of antiproliferative effects of Salvia officinalis L. essential oil optimized using Box–Behnken design

Kallel

Bayoudh

Gargouri

et al. 2022

J. Plant Biochem. Biotechnol.

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BackgroundSalvia officinalis L. essential oil (SoEO) was mostly traditionally used to medicate various diseases as cancer. Then, the present work aims were: (1) to model the cytotoxicity effects of Salvia officinalis L. essential oil (SoEO) related to the human cancer cell lines kind (MCF-7 and HeLa) ; (2) to optimize the hydro-distillation extraction conditions of SoEO; and, (3) to determine the in vitro scavenging capacity of the free radicals DPPH • , NO • , ABTS + , and the ability to reduce Fe 3+ . MethodsThe cytotoxicity and anti-proliferative abilities were evaluated by measuring cell viability and then modeled. Two human cell lines: MCF-7 and HeLa were used. The optimization of SoEO extraction by hydro-distillation was carried out with Response Surface Methodology (RSM) using the Box-Behnken design ResultsThe cytotoxicity activity against both tumor cell lines MCF-7 and HeLa was considerably important with IC50 = 3.125 and 8.920 μg/mL, respectively. All treated cell lines showed a significant reducing in cell viability in response to the increasing oil concentration. The relative behaviors of both cell lines under SoEO treatment were modeled. The obtained optimal extraction yield was Y = 1.85 g/100 g d.b. The main identified fractions were camphene (23.7%), α-thujone (19.62%), 1,8-cineole (10.6 %), viridiflorol (5.9%), borneol (5.72%); β-thujone (5.4%); caryophyllene (3,83%). Also, SoEO was mostly able to scavenge DPPH • free radical, ABTS + radical and hydrogen peroxide in an amount dependent manner (IC50 = 0.97, 0.279 and 0.05 mg/mL, respectively).

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The Phytochemical and Pharmacological Properties of Citrus sinensis ‘Maltese Half-blood’ Essential Oil Peels Extracted and Optimized by Response-surface Methodology

Kallel¹,

Tarhouni

Elaguel³

et al. 2023

CPB

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Aims: The present study aims to evaluate the phytochemical and pharmacological c of the optimized Citrus sinensis ‘Maltese half-blood’ essential oils peels (CsEO) extraction yields using Response-Surface Methodology (RSM). Background: Citrus fruits have been a valuable economic crop for thousands of years. Furthermore, citrus essential oils are significant in the perfume, food, and beverage sectors, as well as aromatherapy and medical medicines. Objective: There have been few investigations on Citrus sinensis ‘Maltese half-blood’ essential oil. Methods: Citrus sinensis ‘Maltese half-blood’ essential oil peels (CsEO) extraction yields were performed by hydro-distillation and optimized by using Response-Surface Methodology (RSM). The oils were analysed by GC-MS. Different chemical tests were used to evaluate antioxidant activities. The healing potential was evaluated using models’ wounds on Wistar rats. Results: The RSM optimization demonstrated the highest yield of CsEO of 6.89 g/100 g d.b. All three tested factors significantly influenced the CsEO extraction yield: washing saline solution concentration, washings number, and drying percentage of peels. Significant antioxidant activities were noted in CsEO: the DPPH assay reported an IC50 of 0.225 ±0.014 mL/mg, the FRAP assay showed an IC50 of 0.235 ±0.001, and the NO assay was an IC50 in order of 0.259 ±0.019. CsEO was not genotoxic and considerably decreased the levels of DNA lesions induced by oxidants. Also, applying a cream with CsEO on wounds promotes significantly rapid wound healing. Conclusion: CsEO could be considered a rich natural source of antioxidants and bio-compounds to accelerate wound healing. It can be used in pharmaceutical sectors as an alternative to synthetic chemicals.

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Modeling of antiproliferative effects of Salvia officinalis L. essential oil optimized using Box–Behnken design

Kallel¹,

Bayoudh²,

Gargouri³

et al. 2020

Preprint

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Background Salvia officinalis L. essential oil (SoEO) was mostly traditionally used to medicate various diseases as cancer. Then, the present work aims were: (1) to model the cytotoxicity effects of Salvia officinalis L. essential oil (SoEO) related to the human cancer cell lines kind (MCF-7 and HeLa) ; (2) to optimize the hydro-distillation extraction conditions of SoEO; and, (3) to determine the in vitro scavenging capacity of the free radicals DPPH•, NO•, ABTS+, and the ability to reduce Fe3+. Methods The cytotoxicity and anti-proliferative abilities were evaluated by measuring cell viability and then modeled. Two human cell lines: MCF-7 and HeLa were used. The optimization of SoEO extraction by hydro-distillation was carried out with Response Surface Methodology (RSM) using the Box–Behnken design Results The cytotoxicity activity against both tumor cell lines MCF-7 and HeLa was considerably important with IC50 = 3.125 and 8.920 µg/mL, respectively. All treated cell lines showed a significant reducing in cell viability in response to the increasing oil concentration. The relative behaviors of both cell lines under SoEO treatment were modeled. The obtained optimal extraction yield was Y = 1.85 g/100 g d.b. The main identified fractions were camphene (23.7%), α-thujone (19.62%), 1,8-cineole (10.6%), viridiflorol (5.9%), borneol (5.72%); β-thujone (5.4%); caryophyllene (3,83%). Also, SoEO was mostly able to scavenge DPPH• free radical, ABTS+ radical and hydrogen peroxide in an amount dependent manner (IC50 = 0.97, 0.279 and 0.05 mg/mL, respectively). Conclusion The present work provides a preliminary platform for further investigation of the possible mechanism of S. officinalis essential oils and their individual compounds in cytotoxic and antitumor activity.

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Asma Elaguel

Lawsonia inermis essential oil: extraction optimization by RSM, antioxidant activity, lipid peroxydation and antiproliferative effects

Modeling of antiproliferative effects of Salvia officinalis L. essential oil optimized using Box–Behnken design

The Phytochemical and Pharmacological Properties of Citrus sinensis ‘Maltese Half-blood’ Essential Oil Peels Extracted and Optimized by Response-surface Methodology

Modeling of antiproliferative effects of Salvia officinalis L. essential oil optimized using Box–Behnken design

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