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Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya
BACKGROUND: Ferula tingitana L. (Apiaceae) has been considered to have abortive and menstruation-inducing properties. It used to treat sore throat, fever, indigestion, and pains. OBJECTIVES: The objective of this study is to establish the chemical composition of the essential oil of flower, leaves o...
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Medknow Publications & Media Pvt Ltd
2017
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5669080/ https://www.ncbi.nlm.nih.gov/pubmed/29142397 http://dx.doi.org/10.4103/pm.pm_323_15 |
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author | Elghwaji, Waleed El-Sayed, Abeer Mohamed El-Deeb, Kadriya S. ElSayed, Aly M. |
author_facet | Elghwaji, Waleed El-Sayed, Abeer Mohamed El-Deeb, Kadriya S. ElSayed, Aly M. |
author_sort | Elghwaji, Waleed |
collection | PubMed |
description | BACKGROUND: Ferula tingitana L. (Apiaceae) has been considered to have abortive and menstruation-inducing properties. It used to treat sore throat, fever, indigestion, and pains. OBJECTIVES: The objective of this study is to establish the chemical composition of the essential oil of flower, leaves of F. tingitana, and to throw light on antimicrobial, cytotoxic activities of Libyan plant. MATERIALS AND METHODS: The chemical composition of the essential oil of flower (0.06% w/v) and leaves (0.1% w/v) of F. tingitana was comparatively analyzed by gas chromatography/mass spectrometry using nonpolar column DB-5. RESULTS: A total of 28–32 components were identified, 15 being common in both samples. The main constituents of both flower- and leave-derived oil samples were α-thujene (13.5%–2.3%), elemol (8.9%–8.3%), eudesmol (0.6%–9.7%) and cadinol (2.2%–13.8%), respectively. The principle difference was a considerably more pronounced sesquiterpenes presence in the leaves-oil, amounting to 74.0%, than in the flower counterpart (39.9%). Caryophyllene (5.6%) and elemol (8.9%) were the major sesquiterpenes detected in flower-oil while leaves-oil showed less amounts of sesquiterpenoid hydrocarbons (27.7%) and represented by eudesmadiene (9.0%). On the contrary, while remaining the dominant group in both oil samples, monoterpenoids are relatively more abundant in flower-derived oil constituting 57.7% versus 24.5% detected in leaves. CONCLUSION: Leaves-oil sample being mostly efficient as antibacterial against Bacillus subtilis and Neisseria gonorrhoeae with potency 48.3, 41.9% compared to tetracycline standard antibacterial drug. The essential oil samples revealed marked in vitro cytotoxicity against breast (MCF7), cervical (HELA) and liver(HEPG2) carcinoma cell lines with IC50% (6.9, 4.8), (8.6, 10.9), and (4.4, 4.2) for the flower-, leaves-derived oil sample, respectively. SUMMARY: Comparative analysis of the investigated oil samples indicates more pronounced monoterpene contents in Ferula tingitana flower. The principle monoterpenoid constituents of both oils are α-thujene. Sesquiterpenes presence is considerably more pronounced in the leaves-derived oil sample. Elemol, cadinol, α-thujene and a-terpinoline, the major components of the flower- and leaves-derived oil in the present work and were not detected in the Turkish sample. The differences may be due to climatic and other extrinsic conditions such as where and when the samples were collected. When screened for antimicrobial activity, the flower- and leaves-derived oil of F. tingitana exhibited a mild effect against all tested Gram-negative and Gram-positive microorganisms. However, not displayed growth inhibitory effect against the fungus Aspergillus flavus and Candida albicans. On assessing the cytotoxic activity, the flower- and leaves-derived oil exhibited specific and significant effects on the viability of the selected human cell lines, viz., hormone-responsive breast carcinoma cell line (MCF7), cervical carcinoma cell line (HELA), and liver carcinoma cell line (HEPG2). [Image: see text] Abbreviations used: F: Flower-derived oil of F. tingitana; L: Leaves-derived oil of F. tingitana; IPP: Isopentenyl pyrophosphate or also isopentenyl diphosphate; DMAPP: Dimethylally pyrophosphate or also dimethylallyl diphosphate; GPP: Geranyl pyrophosphate; GGPP: Geranylgeranyl pyrophosphate; MEP: Methylerythritol phosphate pathway; FPP: Farnesyl pyrophosphate; GC/MS: Analysis gas chromatography/mass spectroscopy; SRB: Sulforhodamine B. |
format | Online Article Text |
id | pubmed-5669080 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2017 |
publisher | Medknow Publications & Media Pvt Ltd |
record_format | MEDLINE/PubMed |
spelling | pubmed-56690802017-11-15 Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya Elghwaji, Waleed El-Sayed, Abeer Mohamed El-Deeb, Kadriya S. ElSayed, Aly M. Pharmacogn Mag Original Article BACKGROUND: Ferula tingitana L. (Apiaceae) has been considered to have abortive and menstruation-inducing properties. It used to treat sore throat, fever, indigestion, and pains. OBJECTIVES: The objective of this study is to establish the chemical composition of the essential oil of flower, leaves of F. tingitana, and to throw light on antimicrobial, cytotoxic activities of Libyan plant. MATERIALS AND METHODS: The chemical composition of the essential oil of flower (0.06% w/v) and leaves (0.1% w/v) of F. tingitana was comparatively analyzed by gas chromatography/mass spectrometry using nonpolar column DB-5. RESULTS: A total of 28–32 components were identified, 15 being common in both samples. The main constituents of both flower- and leave-derived oil samples were α-thujene (13.5%–2.3%), elemol (8.9%–8.3%), eudesmol (0.6%–9.7%) and cadinol (2.2%–13.8%), respectively. The principle difference was a considerably more pronounced sesquiterpenes presence in the leaves-oil, amounting to 74.0%, than in the flower counterpart (39.9%). Caryophyllene (5.6%) and elemol (8.9%) were the major sesquiterpenes detected in flower-oil while leaves-oil showed less amounts of sesquiterpenoid hydrocarbons (27.7%) and represented by eudesmadiene (9.0%). On the contrary, while remaining the dominant group in both oil samples, monoterpenoids are relatively more abundant in flower-derived oil constituting 57.7% versus 24.5% detected in leaves. CONCLUSION: Leaves-oil sample being mostly efficient as antibacterial against Bacillus subtilis and Neisseria gonorrhoeae with potency 48.3, 41.9% compared to tetracycline standard antibacterial drug. The essential oil samples revealed marked in vitro cytotoxicity against breast (MCF7), cervical (HELA) and liver(HEPG2) carcinoma cell lines with IC50% (6.9, 4.8), (8.6, 10.9), and (4.4, 4.2) for the flower-, leaves-derived oil sample, respectively. SUMMARY: Comparative analysis of the investigated oil samples indicates more pronounced monoterpene contents in Ferula tingitana flower. The principle monoterpenoid constituents of both oils are α-thujene. Sesquiterpenes presence is considerably more pronounced in the leaves-derived oil sample. Elemol, cadinol, α-thujene and a-terpinoline, the major components of the flower- and leaves-derived oil in the present work and were not detected in the Turkish sample. The differences may be due to climatic and other extrinsic conditions such as where and when the samples were collected. When screened for antimicrobial activity, the flower- and leaves-derived oil of F. tingitana exhibited a mild effect against all tested Gram-negative and Gram-positive microorganisms. However, not displayed growth inhibitory effect against the fungus Aspergillus flavus and Candida albicans. On assessing the cytotoxic activity, the flower- and leaves-derived oil exhibited specific and significant effects on the viability of the selected human cell lines, viz., hormone-responsive breast carcinoma cell line (MCF7), cervical carcinoma cell line (HELA), and liver carcinoma cell line (HEPG2). [Image: see text] Abbreviations used: F: Flower-derived oil of F. tingitana; L: Leaves-derived oil of F. tingitana; IPP: Isopentenyl pyrophosphate or also isopentenyl diphosphate; DMAPP: Dimethylally pyrophosphate or also dimethylallyl diphosphate; GPP: Geranyl pyrophosphate; GGPP: Geranylgeranyl pyrophosphate; MEP: Methylerythritol phosphate pathway; FPP: Farnesyl pyrophosphate; GC/MS: Analysis gas chromatography/mass spectroscopy; SRB: Sulforhodamine B. Medknow Publications & Media Pvt Ltd 2017-10 2017-10-11 /pmc/articles/PMC5669080/ /pubmed/29142397 http://dx.doi.org/10.4103/pm.pm_323_15 Text en Copyright: © 2017 Pharmacognosy Magazine http://creativecommons.org/licenses/by-nc-sa/3.0 This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 License, which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms. |
spellingShingle | Original Article Elghwaji, Waleed El-Sayed, Abeer Mohamed El-Deeb, Kadriya S. ElSayed, Aly M. Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya |
title | Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya |
title_full | Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya |
title_fullStr | Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya |
title_full_unstemmed | Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya |
title_short | Chemical Composition, Antimicrobial and Antitumor Potentiality of Essential Oil of Ferula tingitana L. Apiaceae Grow in Libya |
title_sort | chemical composition, antimicrobial and antitumor potentiality of essential oil of ferula tingitana l. apiaceae grow in libya |
topic | Original Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5669080/ https://www.ncbi.nlm.nih.gov/pubmed/29142397 http://dx.doi.org/10.4103/pm.pm_323_15 |
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