Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils

ÖZEK, Gülmira

doi:10.18596/jotcsa.389075

Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils

Gülmira ÖZEK (Anadolu Üniversitesi)

Journal of the Turkish Chemical Society, Section A: Chemistry

4 0

Yıl: 2018 Cilt: 5 Sayı: 2 Sayfa Aralığı: 493 - 510 Metin Dili: İngilizce DOI: 10.18596/jotcsa.389075 İndeks Tarihi: 22-02-2020

Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils

Öz:

Two samples of Tanacetum praeteritum (Horwood) Heywood subsp. praeteritum(Horwood) were collected in flowering period and subjected separately to hydrodistillation toyield the essential oils (A and B). The oils were investigated for chemical composition with GCFIDand GC/MS techniques and evaluated against acetylcholinesterase and -amylase enzymesand free radicals (DPPH• and ABTS•+) using microtiter plate assays. Both oils were characterizedwith high abundance of oxygenated monoterpenes. The oils were distinguished by the mainconstituents, namely, camphor (37.6%), 1,8-cineole (19.5%) and terpinen-4-ol (9.3%) werefound as the major constituents in the oil A, while -thujone (79.4%) and -thujone (8.5%)were detected in the oil B. The oils demonstrated significant inhibitory (80% and 60.0%)potentials on acetylcholinesterase (an IC50 of 0.74 mg/mL and an IC50 of 1.78 mg/mL,respectively) which is involved in Alzheimer’s disease. With respect to antidiabetic activity, theoils demonstrated significant inhibiting potential on porcine pancreatic -amylase (an IC50 of1.02 mg/mL and an IC50 of 0.89 mg/mL) in I2/KI assay. The oils demonstrated weak free radicalscavenging activity against DPPH radicals and moderate activity (0.23 mM and 0.15 mM) againstABTS+• in TEAC assay.

Anahtar Kelime:

Konular: Kimya, Analitik Termodinamik Spektroskopi Kimya, Uygulamalı Kimya, Organik Kimya, Tıbbi Fizikokimya Kimya, İnorganik ve Nükleer

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Grierson AJC. Tanacetum L. (emend. Briq.). In: Davis PH, editor. Flora of Turkey and The East Aegean Islands. 5. Edinburgh: Edinburgh University Press; 1975. p. 256-92
Bączek KB, Kosakowska O, Przybył JL, Pióro-Jabrucka E, Costa R, Mondello L, et al. Antibacterial and antioxidant activity of essential oils and extracts from costmary (Tanacetum balsamita L.) and tansy (Tanacetum vulgare L.). Ind. Crops Prod. 2017;102:154-63.
Godinho LS, Aleixo de Carvalho LS, Barbosa de Castro CC, Dias MM, Pinto PdF, Crotti AEM, et al. Anthelmintic activity of crude extract and essential oil of Tanacetum vulgare (Asteraceae) against adult worms of Schistosoma mansoni. Scientific World J. 2014;2014.
Haider SZ, Mohan M, Pandey AK, Singh P. Use of Tanacetum tomentosum and Ta. dolichophyllum essential oils as botanical repellents and insecticidal agents against storage pest Tribolium castaneum (Coleoptera: Tenebrionidae). Entomol. Res. 2017;47(5):318-27.
Polatoğlu K, Servi H, Yücel YY, Nalbantsoy A. Cytotoxicity and acetylcholinesterase inhibitory and PRAP activities of the essential oils of selected Tanacetum L. species. Nat. Volatiles Essent. Oils. 2015;2(4):11-6.
Baddar NWA-H, Aburjai TA, Taha MO, Disi AM. Thujone corrects cholesterol and triglyceride profiles in diabetic rat model. Nat. Prod. Res. 2011;25(12):1180-4.
de Almeida LMS, Carvalho LSAd, Gazolla MC, Silva Pinto PL, Silva MPNd, de Moraes J, et al. Flavonoids and sesquiterpene lactones from Artemisia absinthium and Tanacetum parthenium against Schistosoma mansoni worms. Evidence-Based Comp. Alterna. Medicine. 2016;2016:1-9.
Pålsson K, Jaenson TG, Bæckström P, Borg-Karlson A-K. Tick repellent substances in the essential oil of Tanacetum vulgare. J. Med. Entomol. 2008;45(1):88-93.
Coté H, Boucher M-A, Pichette A, Legault J. Anti-inflammatory, antioxidant, antibiotic, and cytotoxic activities of Tanacetum vulgare L. essential oil and its constituents. Medicines. 2017;4(2):34.
Ozbilgin S, Akkol EK, Ergene Oz B, Ilhan M, Saltan G, Bahadir Acikara O, et al. In vivo activity assessment of some Tanacetum species used as traditional wound healer along with identification of the phytochemical profile by a new validated HPLC method. Ir. J. Basic Med. Sci. 2018;21(2):145-52.
Adekenov S. Sesquiterpene lactones with unusual structure. Their biogenesis and biological activity. Fitoterapia. 2017;121:16-30.
Carocho M, Ferreira IC. A review on antioxidants, prooxidants and related controversy: natural and synthetic compounds, screening and analysis methodologies and future perspectives. Food Chem. Toxicol. 2013;51:15-25.
Pope C, Karanth S, Liu J. Pharmacology and toxicology of cholinesterase inhibitors: uses and misuses of a common mechanism of action. Environment. Tox. Pharmacol. 2005;19(3):433-46.
Pan H-J, Lin Y, Chen YE, Vance DE, Leiter EH. Adverse hepatic and cardiac responses to rosiglitazone in a new mouse model of type 2 diabetes: Relation to dysregulated phosphatidylcholine metabolism. Vasc. Pharmacol. 2006;45(1):65-71.
White JA, Hirsch IB. Nonhypoglycemic drug reactions of agents used to treat diabetes. Endocrin. Metabol. Clinics North Am. 2000;29(4):803-11.
Gören N. Flavonoids of Tanacetum praeteritum subsp. praeteritum. Journal of Faculty Pharmacy of Istanbul University. 1994;30:25-30.
Gören N. Sesquiterpene lactones from Tanacetum praeteritum. Phytochemistry. 1995;38(5):1261-4.
Gören N. Eudesmane-type sesquiterpenes from Tnacetum praeteritum subsp. praeteritum. Phytochemistry. 1996;42(3):747-9.
Gören N, Demirci B, Başer KHC. Composition of the essential oils of Tanacetum spp. from Turkey. Flavour and Fragrance Journal. 2001;16(3):191-4.
EDQM. Determination of Essential Oils in Herbal Drugs 9th ed. Europe Co, editor. Strasbourg: European Directorate for the Quality of Medicines and Healthcare; 2017. 285-6 p.
Özek G, Ishmuratova M, Tabanca N, Radwan MM, Göger F, Özek T, et al. One‐step multiple component isolation from the oil of Crinitaria tatarica (Less.) Sojak by preparative capillary gas chromatography with characterization by spectroscopic and spectrometric techniques and evaluation of biological activity. J. Sep. Sci. 2012;35(5-6):650-60.
Joulain D, König WA, Hochmuth DH. Library of MassFinder-4. In: Hochmuth DH, editor. Terpenoids and Related Constituents of Essential oils. Hamburgh, Germany: Hochmuth Scientific Consulting; 2001.
Adams RP. Identification of Essential Oil Components by Gas Chromatography / Mass Spectrometry. 4th ed. Adams RP, editor: Allured Pub. Corp.; 2007. 804 p.
Baser KHC, Demirci F. Flavours and Fragrances.Chemistry of Essential Oils. In: Berger RG, editor. Flavours and Fragrances: Chemistry, Bioprocessing and Sustainability: Springer- Verlag Berlin Heidelberg; 2007. p. 648.
Ellman GL, Courtney KD, Andres V, Featherstone RM. A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem. Pharmacol. 1961;7(2):88IN191- 9095.
Yang XW, Huang MZ, Jin YS, Sun LN, Song Y, Chen HS. Phenolics from Bidens bipinnata and their amylase inhibitory properties. Fitoterapia. 2012;83(7):1169-75.
Brand-Williams W, Cuvelier ME, Berset CLWT. Use of a free radical method to evaluate antioxidant activity. LWT-Food Sci. Technol. 1995;28(1):25-30.
Re R, Pellegrini N, Proteggente A, Pannala A, Yang M, Rice-Evans C. Antioxidant activity applying an improved ABTS radical cation decolorization assay. Free Rad. Biol. Med. 1999;26(9):1231-7.
Orav A. Identification of terpenes by gas chromatography-mass spectrometry. In: Niessen WMA, editor. Current Practice of Gas-Chromatography Mass-Spectrometry Chromatographic Science Series. 86. Basel, Switzerland: Marcel Dekker AG; 2001. p. 483- 94.
Maggio A, Rosselli S, Bruno M, Spadaro V, Raimondo FM, Senatore F. Chemical composition of essential oil from Italian populations of Artemisia alba Turra (Asteraceae). Molecules. 2012;17(9):10232-41.
Cha J-D, Jeong M-R, Jeong S-I, Moon S-E, Kim J-Y, Kil B-S, et al. Chemical composition and antimicrobial activity of the essential oils of Artemisia scoparia and A. capillaris. Planta Med. 2005;71(02):186-90.
Noorizadeh H, Farmany A, Noorizadeh M. Application of GA-PLS and GA-KPLS calculations for the prediction of the retention indices of essential oils. Química Nova. 2011;34(8):1398- 404.
Bignell C, Dunlop P, Brophy J. Volatile leaf oils of some south‐western and southern Australian species of the genus Eucalyptus (series 1). Part XIX. Flavour Fragr. J. 1998;13(2):131-9.
López MD, Campoy FJ, Pascual-Villalobos MJ, Muñoz-Delgado E, Vidal CJ. Acetylcholinesterase activity of electric eel is increased or decreased by selected monoterpenoids and phenylpropanoids in a concentration-dependent manner. Chem. Biol. Interact. 2015;229:36-43.
Bader A, Panizzi L, Cioni PL, Flamini G. Achillea ligustica: composition and antimicrobial activity of essential oils from the leaves, flowers and some pure constituents. Central Eur. J. Biol. 2007;2(2):206-12.
Chéraif I, Jannet HB, Hammami M, Khouja M, Mighri Z. Chemical composition and antimicrobial activity of essential oils of Cupressus arizonica Greene. Biochem. Syst. Ecol. 2007;35(12):813-20.
Noorizadeh H, Farmany A. Exploration of linear and nonlinear modeling techniques to predict of retention index of essential oils. J. Chinese Chem. Soc. 2010;57(6):1268-77.
Tan N, Yazici-Tutunis S, Yesil Y, Demirci B, Tan E. Antibacterial activities and composition of the essential oils of Salvia sericeo-tomentosa varieties. Rec. Nat. Prod. 2017;11:456-61.
Baser K, Demirci B, Ozek T, Viljoen A, Victor J. Composition of the essential oils of five Coleonema species from South Africa. J. Essent. Oil Res. 2006;18:26-9.
Demirci F, Demirci B, Gürbüz I, Yesilada E, Baser KHC. Characterization and biological activity of Achillea teretifolia Willd. and A. nobilis L. subsp. neilreichii (Kerner) Formanek essential oils. Turk. J. Biol. 2009;33(2):129-36.
Arze JBL, Collin G, Garneau F-X, Jean F-I, Gagnon H. Essential Oils from Bolivia. VI. Lamiaceae: Lepechinia graveolens (Reg.) Epling L. floribunda (Benth.) Epling, and L. meyeni (Walp.) Epling. J. Essent. Oil Res. 2009;21(1):36-40.
Nam AM, Tomi F, Gibernau M, Casanova J, Bighelli A. Composition and chemical variability of the needle oil from Pinus halepensis growing in Corsica. Chem. Biodivers. 2016;13(4):380- 6.
Lopes-Lutz D, Alviano DS, Alviano CS, Kolodziejczyk PP. Screening of chemical composition, antimicrobial and antioxidant activities of Artemisia essential oils. Phytochemistry. 2008;69(8):1732-8.
Collin G. Aromas from Quebec. IV. Chemical composition of the essential oil of Ledum groenlandicum: A review. Am. J. Essent. Oils Nat. Prod. 2015;2(3):06-11.
Fang Y, Qian M. Aroma compounds in Oregon Pinot Noir wine determined by aroma extract dilution analysis (AEDA). Flavour Fragr. J. 2005;20(1):22-9.
Kurose K, Okamura D, Yatagai M. Composition of the essential oils from the leaves of nine Pinus species and the cones of three of Pinus species. Flavour Fragr. J. 2007;22(1):10-20.
Tabanca N, Avonto C, Wang M, Parcher JF, Ali A, Demirci B, et al. Comparative investigation of Umbellularia californica and Laurus nobilis leaf essential oils and identification of constituents active against Aedes aegypti. J. Agric. Food Chem. 2013;61(50):12283-91.
Perry PL, Wang Y, Lin J. Analysis of honeydew melon (Cucumis melo var. inodorus) flavour and GC–MS/MS identification of (E, Z)‐2, 6‐nonadienyl acetate. Flavour Fragr. J. 2009;24(6):341-7.
Baser KHC, Demirci B, Iscan G, Hashimoto T, Demirci F, Noma Y, et al. The essential oil constituents and antimicrobial activity of Anthemis aciphylla Boiss. var. discoidea Boiss. Chem. Pharm. Bull. 2006;54(2):222-5.
Öztürk B, Özek G, Özek T, Baser KHC. Chemical diversity in volatiles of Helichrysum plicatum DC. subspecies in Turkey. Rec. Nat. Prod. 2014;8(4):373.
Bousbia N, Vian MA, Ferhat MA, Petitcolas E, Meklati BY, Chemat F. Comparison of two isolation methods for essential oil from rosemary leaves: Hydrodistillation and microwave hydrodiffusion and gravity. Food Chem. 2009;114(1):355-62.
Polatoglu K, Demirci F, Demirci B, Gören N, Baser KHC. Antimicrobial activity and essential oil composition of a new T. argyrophyllum (C. Koch) Tvzel var. argyrophyllum chemotype. J. Oleo Sci. 2010;59(6):307-13.
Akpulat HA, Tepe B, Sokmen A, Daferera D, Polissiou M. Composition of the essential oils of Tanacetum argyrophyllum (C. Koch) Tvzel. var. argyrophyllum and Tanacetum parthenium (L.) Schultz Bip.(Asteraceae) from Turkey. Biochem. Syst. Ecol. 2005;33(5):511-6.
Yousefzadi M, Ebrahimi SN, Sonboli A, Miraghasi F, Ghiasi S, Arman M, et al. Cytotoxicity, antimicrobial activity and composition of essential oil from Tanacetum balsamita L. subsp. balsamita. Nat. Prod. Comm. 2009;4(1):119-22.
Salamci E, Kordali S, Kotan R, Cakir A, Kaya Y. Chemical compositions, antimicrobial and herbicidal effects of essential oils isolated from Turkish Tanacetum aucheranum and Tanacetum chiliophyllum var. chiliophyllum. Biochem. Syst. Ecol. 2007;35(9):569-81.
Başer K, Demirci B, Tabanca N, Özek T, Gören N. Composition of the essential oils of Tanacetum armenum (DC.) Schultz Bip., T. balsamita L., T. chiliophyllum (Fisch. & Mey.) Schultz Bip. var. chiliophyllum and T. haradjani (Rech. fil.) Grierson and the enantiomeric distribution of camphor and carvone. Flavour Fragr. J. 2001;16(3):195-200.
Polatoğlu K, Demirci B, Demirci F, Gören N, Başer KHC. Biological activity and essential oil composition of two new Tanacetum chiliophyllum (Fisch. & Mey.) Schultz Bip. var. chiliophyllum chemotypes from Turkey. Ind. Crops Prod. 2012;39:97-105.
Polatoglu K, Demirci B, Demirci F, Gören N, Baser KHC. The essential oil composition of Tanacetum densum (Labill.) Heywood ssp. eginense Heywood from Turkey. Rec. Nat. Prod. 2012;6(4):402.
Polatoğlu K, Gören N, Başer KHC, Demirci B. The essential oil composition of Tanacetum densum (Labill.) Heywood ssp. sivasicum Hub.-Mor. & Grierson from Turkey. J. Essent. Oil Res. 2009;21(3):200-2.
Polatoglu K, Sen A, Kandemir A, Gören N. Essential oil composition and DPPH scavenging activity of endemic Tanacetum mucroniferum Hub.–Mor. & Grierson from Turkey. J. Essent. Oil Bearing Plants. 2012;15(1):66-74.
Hendriks H, Bos R, Woerdenbag H. The Essential Oil of Tanacetum parthenium (L.) Schultz‐Bip. Flavour Fragr. J. 1996;11(6):367-71.
Polatoglu K, Demirci F, Demirci B, Gören N, Baser KHC. Antibacterial activity and the variation of Tanacetum parthenium (L.) Schultz Bip. essential oils from Turkey. J. Oleo Sci. 2010;59(4):177-84.
Polatoğlu K, Demirci B, Gören N, Başer KHC. Essential oil composition of endemic Tanacetum zahlbruckneri (Náb.) and Tanacetum tabrisianum (Boiss.) Sosn. and Takht. from Turkey. Nat. Prod. Res. 2011;25(6):576-84.
Dohi S, Terasaki M, Makino M. Acetylcholinesterase inhibitory activity and chemical composition of commercial essential oils. J Agric Food Chem. 2009;57(10):4313-8.
Kaufmann D, Dogra AK, Wink M. Myrtenal inhibits acetylcholinesterase, a known Alzheimer target. J Pharm Pharmacol. 2011;63(10):1368-71.
Awasthi M, Upadhyay AK, Singh S, Pandey VP, Dwivedi UN. Terpenoids as promising therapeutic molecules against Alzheimer’s disease: amyloid beta-and acetylcholinesterase-directed pharmacokinetic and molecular docking analyses. Molecular Simulation. 2017:1-11.
Daradka HM, Abas MM, Mohammad MA, Jaffar MM. Antidiabetic effect of Artemisia absinthium extracts on alloxan-induced diabetic rats. Comparative Clinical Pathology. 2014;23(6):1733-42.
Lachenmeier DW, Walch SG. The choice of thujone as drug for diabetes: Reply to: Al-Haj Baddar et al.(2011). Natural Product Research. 2011;25(20):1890-2.
Al-Omari SM. The effect of thujone and myrcene on diabetes mellitus in albino rats. Faculty of Graduate Studies University of Jordan. 2007; Master's Degree of Science in Biological Sciences.

APA	ÖZEK G (2018). Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. , 493 - 510. 10.18596/jotcsa.389075
Chicago	ÖZEK Gülmira Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. (2018): 493 - 510. 10.18596/jotcsa.389075
MLA	ÖZEK Gülmira Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. , 2018, ss.493 - 510. 10.18596/jotcsa.389075
AMA	ÖZEK G Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. . 2018; 493 - 510. 10.18596/jotcsa.389075
Vancouver	ÖZEK G Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. . 2018; 493 - 510. 10.18596/jotcsa.389075
IEEE	ÖZEK G "Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils." , ss.493 - 510, 2018. 10.18596/jotcsa.389075
ISNAD	ÖZEK, Gülmira. "Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils". (2018), 493-510. https://doi.org/10.18596/jotcsa.389075

APA	ÖZEK G (2018). Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. Journal of the Turkish Chemical Society, Section A: Chemistry, 5(2), 493 - 510. 10.18596/jotcsa.389075
Chicago	ÖZEK Gülmira Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. Journal of the Turkish Chemical Society, Section A: Chemistry 5, no.2 (2018): 493 - 510. 10.18596/jotcsa.389075
MLA	ÖZEK Gülmira Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. Journal of the Turkish Chemical Society, Section A: Chemistry, vol.5, no.2, 2018, ss.493 - 510. 10.18596/jotcsa.389075
AMA	ÖZEK G Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. Journal of the Turkish Chemical Society, Section A: Chemistry. 2018; 5(2): 493 - 510. 10.18596/jotcsa.389075
Vancouver	ÖZEK G Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils. Journal of the Turkish Chemical Society, Section A: Chemistry. 2018; 5(2): 493 - 510. 10.18596/jotcsa.389075
IEEE	ÖZEK G "Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils." Journal of the Turkish Chemical Society, Section A: Chemistry, 5, ss.493 - 510, 2018. 10.18596/jotcsa.389075
ISNAD	ÖZEK, Gülmira. "Chemical Diversity and Biological Potential of Tanacetum praeteritum subsp. praeteritum Essential Oils". Journal of the Turkish Chemical Society, Section A: Chemistry 5/2 (2018), 493-510. https://doi.org/10.18596/jotcsa.389075