Potential of Terpenoids and Flavonoids from...
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Editorial Potential of Terpenoids and Flavonoids from Asteraceae as Anti-Inflammatory, Antitumor, and Antiparasitic Agents Valeria P. Sülsen, 1,2 Emilio Lizarraga, 3 Nilufar Z. Mamadalieva, 4 and João Henrique G. Lago 5 1 Departamento de Farmacolog´ ıa, C´ atedra de Farmacognosia, Facultad de Farmacia y Bioqu´ ımica, Universidad de Buenos Aires, Buenos Aires, Argentina 2 Universidad de Buenos Aires, CONICET, Instituto de Qu´ ımica y Metabolismo del F´ armaco (IQUIMEFA), Buenos Aires, Argentina 3 Instituto de Fisiolog´ ıa Animal, Fundaci´ on Miguel Lillo y Facultad de Ciencias Naturales e Instituto Miguel Lillo, Universidad Nacional de Tucum´ an, Tucum´ an, Argentina 4 Institute of the Chemistry of Plant Substances, Academy of Sciences of Uzbekistan, 100170 Tashkent, Uzbekistan 5 Federal University of ABC, Center of Natural Sciences and Humanities (CCNH-UFABC), Santo Andr´ e, SP, Brazil Correspondence should be addressed to Valeria P. S¨ ulsen; vsulsen@ffyb.uba.ar Received 7 June 2017; Accepted 7 June 2017; Published 12 July 2017 Copyright © 2017 Valeria P. S¨ ulsen et al. is is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Asteraceae (formerly known as Compositae) is one of the largest families of higher plants, with more than 1700 genera and approximately 24000 species, which grow in varied envi- ronments [1]. e economic importance of the Asteraceae family has been described and, for centuries, several species of this family have been used for medicinal and food purposes [2]. Over the last decades, different species from this family have been studied due to the great variety and amount of bioactive compounds they synthesize. Among them, ter- penoids and flavonoids stand out because of their biological activities and potential health benefits. Terpenoids constitute the largest class of natural products derived from isoprene (C5) units joined head-to-tail or tail-to-head, among other possibilities. ey are classified as hemiterpenes (C5), monoterpenes (C10), sesquiterpenes (C15), diterpenes (C20), sesterpenes (C25), triterpenes (C30), tetraterpenes (C40), and polyterpenes (>C40). ey can be found in numerous living organisms, especially plants, fungi, and marine animals. Terpenoids are of great interest due to the broad range of biological activities reported such as cancer preventive effects and analgesic, anti-inflammatory, antimicrobial, antifungal, antiviral, and antiparasitic activi- ties [3]. Flavonoids are hydroxylated phenolic compounds that are present in plants and occupy a special place among sec- ondary metabolites. ey are classified into different classes, with flavones, flavonols, flavanones, catechins, isoflavones, and anthocyanidins being the most common. Similar to ter- penoids, they also present a wide range of biological activities. ese compounds have been demonstrated to have protective effects against many infectious and degenerative diseases such as cancer, among other important pharmacological activities such as antioxidant and anti-inflammatory activities [4, 5]. Many of these bioactive compounds and their derivatives either are already being used to treat diseases or are under study in preclinical and clinical trials. e sesquiterpene lac- tones artemisinin and arglabin, isolated both from Artemisia species, are approved drugs for the treatment of human malaria and cancer, respectively. e anticancer drug pacli- taxel is also a terpenoid compound used nowadays against several types of cancer [6]. Among flavonoids, the flavone quercetin is currently being assessed in clinical trials on prostate cancer and its primary prevention [7]. is special issue offers original research contributions related to the evaluation of antiparasitic and cytotoxic extracts by means of screening processes, the evaluation of Hindawi Evidence-Based Complementary and Alternative Medicine Volume 2017, Article ID 6196198, 2 pages https://doi.org/10.1155/2017/6196198
Transcript of Potential of Terpenoids and Flavonoids from...
EditorialPotential of Terpenoids and Flavonoids from Asteraceae asAnti-Inflammatory, Antitumor, and Antiparasitic Agents
Valeria P. Sülsen,1,2 Emilio Lizarraga,3
Nilufar Z. Mamadalieva,4 and João Henrique G. Lago5
1Departamento de Farmacologıa, Catedra de Farmacognosia, Facultad de Farmacia y Bioquımica,Universidad de Buenos Aires, Buenos Aires, Argentina2Universidad de Buenos Aires, CONICET, Instituto de Quımica y Metabolismo del Farmaco (IQUIMEFA), Buenos Aires, Argentina3Instituto de Fisiologıa Animal, Fundacion Miguel Lillo y Facultad de Ciencias Naturales e Instituto Miguel Lillo,Universidad Nacional de Tucuman, Tucuman, Argentina4Institute of the Chemistry of Plant Substances, Academy of Sciences of Uzbekistan, 100170 Tashkent, Uzbekistan5Federal University of ABC, Center of Natural Sciences and Humanities (CCNH-UFABC), Santo Andre, SP, Brazil
Correspondence should be addressed to Valeria P. Sulsen; [email protected]
Received 7 June 2017; Accepted 7 June 2017; Published 12 July 2017
Copyright © 2017 Valeria P. Sulsen et al.This is an open access article distributed under theCreativeCommonsAttribution License,which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Asteraceae (formerly known as Compositae) is one of thelargest families of higher plants, with more than 1700 generaand approximately 24000 species, which grow in varied envi-ronments [1]. The economic importance of the Asteraceaefamily has been described and, for centuries, several speciesof this family have been used formedicinal and food purposes[2].
Over the last decades, different species from this familyhave been studied due to the great variety and amount ofbioactive compounds they synthesize. Among them, ter-penoids and flavonoids stand out because of their biologicalactivities and potential health benefits.
Terpenoids constitute the largest class of natural productsderived from isoprene (C5) units joined head-to-tail ortail-to-head, among other possibilities. They are classifiedas hemiterpenes (C5), monoterpenes (C10), sesquiterpenes(C15), diterpenes (C20), sesterpenes (C25), triterpenes (C30),tetraterpenes (C40), and polyterpenes (>C40). They can befound in numerous living organisms, especially plants, fungi,and marine animals. Terpenoids are of great interest dueto the broad range of biological activities reported such ascancer preventive effects and analgesic, anti-inflammatory,antimicrobial, antifungal, antiviral, and antiparasitic activi-ties [3].
Flavonoids are hydroxylated phenolic compounds thatare present in plants and occupy a special place among sec-ondary metabolites. They are classified into different classes,with flavones, flavonols, flavanones, catechins, isoflavones,and anthocyanidins being the most common. Similar to ter-penoids, they also present awide range of biological activities.These compounds have been demonstrated to have protectiveeffects against many infectious and degenerative diseasessuch as cancer, among other important pharmacologicalactivities such as antioxidant and anti-inflammatory activities[4, 5].
Many of these bioactive compounds and their derivativeseither are already being used to treat diseases or are understudy in preclinical and clinical trials. The sesquiterpene lac-tones artemisinin and arglabin, isolated both from Artemisiaspecies, are approved drugs for the treatment of humanmalaria and cancer, respectively. The anticancer drug pacli-taxel is also a terpenoid compound used nowadays againstseveral types of cancer [6]. Among flavonoids, the flavonequercetin is currently being assessed in clinical trials onprostate cancer and its primary prevention [7].
This special issue offers original research contributionsrelated to the evaluation of antiparasitic and cytotoxicextracts by means of screening processes, the evaluation of
HindawiEvidence-Based Complementary and Alternative MedicineVolume 2017, Article ID 6196198, 2 pageshttps://doi.org/10.1155/2017/6196198
2 Evidence-Based Complementary and Alternative Medicine
the effect of extracts on inflammation and the detectionof their bioactive compounds, and the assessment of theanti-inflammatory and cytotoxic activities of terpenoids andflavonoids as well as those formulae containing such com-pounds, together with attempts to gain an insight into thepossible mechanism of action of these groups of substances.
Considering the biological and pharmacological activitiesof terpenoids and flavonoids and the importance of thesemetabolites as potential lead compounds, we decided toinclude in this special issue some research articles describingthe activity of these groups of compounds isolated fromspecies belonging to families other than Asteraceae.
Acknowledgments
We are grateful to the authors for their valuable contributionsto this special issue. We are also thankful to all the reviewersfor their opinions and suggestions. We also want to thankEvidence Based Complementary and Alternative Medicinefor inviting us to edit this special issue.
Valeria P. SulsenEmilio Lizarraga
Nilufar Z. MamadalievaJoao Henrique G. Lago
References
[1] M. C. Telleria, “Asteraceae visited by honeybees in Argentina:a record from entomopalynological studies,” Boletin de laSociedad Argentina de Botanica, vol. 44, pp. 65–74, 2009.
[2] G. E. Barboza, J. J. Cantero, C. Nunez, A. Pacciaroni, andL. Ariza Espinar, “Medicinal plants: A general review anda phytochemical and ethnopharmacological screening of thenative Argentine Flora,” Kurtziana, vol. 34, p. 365, 2009.
[3] B. Singh and R. A. Sharma, “Plant terpenes: defense responses,phylogenetic analysis, regulation and clinical applications,” 3Biotech, vol. 5, no. 2, pp. 129–151, 2015.
[4] S. Kumar andA. K. Pandey, “Chemistry and biological activitiesof flavonoids: an overview,” The Scientific World Journal, vol.2013, Article ID 162750, 16 pages, 2013.
[5] N. Z. Mamadalieva, F. Herrmann, M. Z. El-Readi et al.,“Flavonoids in Scutellaria immaculata and S. ramosissima(Lamiaceae) and their biological activity,” Journal of Pharmacyand Pharmacology, vol. 63, no. 10, pp. 1346–1357, 2011.
[6] A. G. Atanasov, B. Waltenberger, and E. M. Pferschy-Wenzig etal., “Discovery and resupply of pharmacologically active plant-derived natural products: a review,”BiotechnologyAdvances, vol.33, pp. 1582–1614, 2015.
[7] ClinicalTrials.gov, “A service of the U.S. National Institutes ofHealth,” 2017. https://clinicaltrials.gov/ct2/results?term=quer-cetin+and+cancer&Search=Search.
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