اخبار و اعلانات

 آمار

تعداد نشریات283
تعداد نشریات سازمان81
تعداد شماره‌ها2,766
تعداد مقالات31,497
تعداد مشاهده مقاله39,695,328
تعداد دریافت فایل اصل مقاله17,251,518
Pérez-Ochoa, Monica, Vera-Guzmán, Araceli, Chavez-Servia, Jose. (1403). Antioxidant Compounds and Activity of the Medicinal Plants Tagetes sp. and Clinopodium sp. from Indigenous Communities in Mexico. سامانه مدیریت نشریات علمی, 13(2), 417-428. doi: 10.22034/jmpb.2023.358021.1460
Monica L. Pérez-Ochoa; Araceli M. Vera-Guzmán; Jose Luis Chavez-Servia. "Antioxidant Compounds and Activity of the Medicinal Plants Tagetes sp. and Clinopodium sp. from Indigenous Communities in Mexico". سامانه مدیریت نشریات علمی, 13, 2, 1403, 417-428. doi: 10.22034/jmpb.2023.358021.1460
Pérez-Ochoa, Monica, Vera-Guzmán, Araceli, Chavez-Servia, Jose. (1403). 'Antioxidant Compounds and Activity of the Medicinal Plants Tagetes sp. and Clinopodium sp. from Indigenous Communities in Mexico', سامانه مدیریت نشریات علمی, 13(2), pp. 417-428. doi: 10.22034/jmpb.2023.358021.1460
Pérez-Ochoa, Monica, Vera-Guzmán, Araceli, Chavez-Servia, Jose. Antioxidant Compounds and Activity of the Medicinal Plants Tagetes sp. and Clinopodium sp. from Indigenous Communities in Mexico. سامانه مدیریت نشریات علمی, 1403; 13(2): 417-428. doi: 10.22034/jmpb.2023.358021.1460

Antioxidant Compounds and Activity of the Medicinal Plants Tagetes sp. and Clinopodium sp. from Indigenous Communities in Mexico

Journal of Medicinal plants and By-Products
مقاله 16، دوره 13، شماره 2، شهریور 2024، صفحه 417-428    اصل مقاله (1.03 M)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22034/jmpb.2023.358021.1460
نویسندگان
Monica L. Pérez-Ochoa؛ Araceli M. Vera-Guzmán؛ Jose Luis Chavez-Servia*
CIIDIR-Oaxaca, Instituto Politécnico Nacional, Santa Cruz Xoxocotlán, Oaxaca, México
چکیده
Knowledge about the therapeutic properties and efficacy conferred by several plants to indigenous communities is based on observations, traditional knowledge, and forms of use or application within local, cultural, and territorial contexts. However, to some extent, favorable responses to these plants depend on the form in which a plant is used and its phytochemical composition. This work aimed to evaluate the contents of total polyphenols and flavonoids and antioxidant activity and determine qualitative phytochemical profiles of T. lucida, T. lunulata, C. mexicanum and C. macrostemum from samples of plants collected in four indigenous regions of Oaxaca, Mexico. The results showed that the contents of phenolic compounds and antioxidant activity differed significantly among the evaluated species and that the effect of species was greater than the ecological-environmental effects caused by the origins of the samples. Tannins, alkaloids, steroids, terpenoids, and coumarins were qualitatively identified in all evaluated species, and emodins were detected only in T. lucida. Among the communities visited, it was documented that all the species are used to treat gastrointestinal disorders, and antimicrobial, calming and anti-inflammatory properties were recorded for all four species. The effectiveness conferred to these plant species in the communities to treat ailments, including endemic diseases, is partly due to the complex phytochemical composition and the beneficial properties released during infusion or decoction.
کلیدواژه‌ها
Spectrophotometry؛ Traditional knowledge؛ Phenolic compounds؛ Gastrointestinal disorders
مراجع
  1. Salmerón-Manzano E., Garrido-Cardenas J.A., Manzano-Agugliaro F. Worldwide research trends on medicinal plants. Int J Environ Res Public Health. 2020;17:10.
  2. Cai H., Zhang Y., Qiu Z., Luo P. Gene expression of antioxidant metabolic enzymes in grape extracts. Cell Mol Biol. 2021;67(6):200-212.
  3. World Health Organization (WHO). WHO global report on traditional and complementary medicine 2019. World Health Organization, Geneva. 2019.
  4. Touiti N., Houssaini T.S., Achour S. Overview on pharmacovigilance of nephrotoxic herbal medicines used worldwide. Clinical Phytoscience. 2021;7:1-9.
  5. Khan F., Pandey P., Singh A., Upadhyay T.K., AboElnaga S.M.H., Al-Majjar M.A.A., Saeed M., Kahrizi D. Unveiling antioxidant and antiproliferative effects of Prosopis juliflora leaves against human prostata cancer LNCaP cells. Cell Mol Biol. 2022;68(11):20-27.
  6. Zhang Q. Global situation and WHO strategy on traditional medicine. Tradit Med Mod Med. 2018;1:11-13.
  7. Lee E.L., Richards N, Harrison J, Barnes J. Prevalence of use of traditional, complementary and alternative medicine by the general population: A systematic review of national studies published from 2010 to 2019. Drug Safety. 2022;45:713-735.
  8. Sánchez-González A., Granados-Sánchez D.., Simón-Nabor R. Uso medicinal de las plantas por los Otomíes del municipio de Nicolás Flores, Hidalgo, México. Rev Chapingo Serie Horticult. 2008;14:271-279.
  9. Gómez-Álvares R. Plantas medicinales en una aldea del estado de Tabasco, México. Rev Fitotec Mex. 2012;35:43-49.
  10. Arrazola-Guendulay A.A., Hernández-Santiago E., Rodríguez-Ortiz G. Conocimiento tradicional de plantas silvestres en una comunidad de los Valles Centrales de Oaxaca. Rev Mex Agroecosist. 2018;5:55-78.
  11. Ortega-Cala L.L., Monroy-Ortiz C., Monroy-Martínez R., Colín-Bahena H., Flores-Franco G., Luna-Cavazos M., Monroy-Ortiz R. Plantas medicinales utilizadas para enfermedades del sistema digestivo en Tetela del Volcán, Estado de Morelos, México. Bol Latinoam Caribe Plant Med Aromat. 2019;18:106-129.
  12. García-Sánchez F., López-Villafranco M.E., Aguilar-Rodríguez S., Aguilar-Contreras A. Etnobotánica y morfo-anatomía comparada de tres especies de Tagetes que se utilizan en Nicolás Romero, Estado de México. Bot Sci. 2012;90:221-232.
  13. Mata-Pinzón S., Pérez-Ortega G., Reyes-Chilpa R. Plantas medicinales para el tratamiento del susto y mal de ojo. Análisis de sus posibles efectos sobre el Sistema Nervioso Central por vía transdérmica e inhalatoria. Etnobiología 2018;16:30-47.
  14. Pérez-Ortega G., González-Trujano M.E., Ángeles-López G.E., Brindis F., Vibrans H., Reyes-Chilpa R. Tagetes lucida Cav.: Ethnobotany, phytochemistry and pharmacology of its tranquilizing properties. J Ethnopharmacol. 2016;181:221-228.
  15. Domínguez-Vázquez G., Castro-Ramírez A.E. Usos medicinales de la familia Labiatae en Chiapas, México. Etnobiología 2002;2:19-31.
  16. Universidad Nacional Autónoma de México (UNAM). Biblioteca Digital de la Medicina Tradicional Mexicana. Universidad Nacional Autónoma de México (UNAM). 2009. Ciudad de México, México. http://www.medicinatradicionalmexicana.unam.mx/.
  17. Xu LW., Chen J., Qi HY., Shi Y.P. Phytochemicals and their biological activities of plants in Tagetes L. Chin Herb Med. 2012;4:103-117.
  18. Salehi B., Valussi M., Morais-Braga M.F.B., Pereira-Carneiro J.N., Borges L.A.L.A., Douglas CH.D., Vitalini S., Kręgiel D., Antolak H., Sharifi-Rad M.., Cirone SN.C., Yousaf Z., Martorell M., Iriti M., Carradori S., Sharifi-Rad J. Tagetes spp. essential oils and other extracts: chemical characterization and biological activity. Molecules. 2018;23:2847.
  19. Frezza C., Venditti A., Serafini M., Bianco A. Phytochemistry, Chemotaxonomy, Ethnopharmacology, and Nutraceutics of Lamiaceae. In: Atta-ur-Rahman (ed.) Studies in Natural Products Chemistry Vol. 62, Elsevier, 2019, pp. 125-178.
  20. Aquino R., Cáceres A., Morelli S., Rastrelli L. An extract of Tagetes lucida and its phenolic constituents as antioxidants. J Nat Prod. 2002;65:1773-1776.
  21. Céspedes C.L., Avila J.G., Martínez A., Serrato B., Calderón-Mugica J.C., Salgado-Garciglia R. Antifungal and antibacterial activities of Mexican tarragon (Tagetes lucida). J Agric Food Chem. 2006;54:3521-3527.
  22. Wang W., Xu H., Chen H., Tai K., Liu F., Gao Y. In vitro antioxidant, anti-diabetic and antilipemic potentials of quercetagetin extracted from marigold (Tagetes erecta L.) inflorescence residues. J Food Sci Techn. 2016;53:2614-2624.
  23. González-Trujano M.E., Gutiérrez-Valentino C., Hernández-Aarámburo M.Y., Díaz-Reval M.I., Pellicer F. Identification of some bioactive metabolites and inhibitory receptors in the antinociceptive activity of Tagetes lucida Cav. Life Sci. 2019;231:116523.
  24. Arroyo A.R., Chacón B., Maki K. Screening and selection of plants by positive pharmacologic effect on jejunum muscular contractility. Pharm Biol. 2004;42:24-29.
  25. Pérez-Gutierrez R.M., Gallardo-Navarro Y.T. Antioxidant and hepatoprotective effects of the methanol extract of the leaves of Satureja macrostema. Pharmacogn Mag. 2010;6:125-132.
  26. Villa-Ruano N., Zurita-Vásquez G.G., Pacheco-Hernández Y., Betancourt-Jiménez M.G., Cruz-Durán R., Duque-Bautista H. Anti-lipase and antioxidant properties of 30 medicinal plants used in Oaxaca, Mexico. Biol Res. 2013;46:53-160.
  27. Alvarado A.M., García-Trejo F., Cardador-Martínez A., Magallán-Hernández F. Clinopodium mexicanumm: potential and difficulties for the sustainable use of a Mexican medicinal plant. Bol Latinoam Caribe Plant Med Aromat. 2020;19:149-160.
  28. Estrada-Reyes R., Martínez-Vázquez M., Gallegos-Solís A., Heinze G., Moreno J. Depressant effects of Clinopodium mexicanum Benth. Govaerts (Lamiaceae) on the central nervous system. J Ethnopharmacol. 2010;130:1-8.
  29. Instituto Nacional de Estadística y Geografía (INEGI). (2008). Prontuario de información geográfica municipal de los Estados Unidos Mexicanos. Instituto Nacional de Estadística y Geografía, Mexico, 2008, https://www.inegi.org.mx/contenidos/app/mexicocifras/datos_geograficos/20/20239.pdf
  30. IUSS Working Group WRB. World Reference Base for Soil Resources 2014, update 2015 International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports No. 106. FAO, 2015.
  31. Singleton V.L., Rossi J.A. Colorimetry of total phenolics with phosphomolybdic phosphotungstic acid reagents. Am J Enol Vitic. 1965;16:144-158.
  32. Lin J.Y., Tang C.Y. Determination of total phenolic and flavonoid contents in selected fruits and vegetables, as well as their stimulatory effects on mouse splenocyte proliferation. Food Chem. 2007;101:140-147.
  33. Zhishen J., Mengcheng T., Jianming W. The determination of flavonoid contents in mulberry and their scavenging effects on superoxide radicals. Food Chem. 1999;64:555-559.
  34. Pękal A., Pyrzynska K. Evaluation of aluminium complexation reaction for flavonoid content assay. Food Anal Methods. 2014;7:1776-1782.
  35. Brand-Williams W., Cuvelier M.E., Berset C. Use of a free radical method to evaluate antioxidant activity. LWT-Food Sci Technol. 1995;28:25-30.
  36. Benzie I.F., Strain J.J. Ferric reducing/antioxidant power assay: Direct measure of total antioxidant activity of biological fluids and modified version for simultaneous measurement of total antioxidant power and ascorbic acid concentration. Methods Enzymol. 1999;299:15-27.
  37. Savithramma N., Linga-Rao M., Suhrulatha D. Screening of medicinal plants for secondary metabolites. Middle-East J Scient Res. 2011;8:579-584
  38. Marcus A.C., Edori O.S.., and Maduagu MC. Phytochemical and anti-microbial screening of Phyllantus fratenus and Taraxacuim officinale leaves. Biochem Anal Biochem. 2019;8:1-5.
  39. SAS Institute Inc. (SAS). Base SAS ® 9.1.3 Procedures Guide, Second Edition, Volumes 1, 2, 3, and 4. Cary, NC: SAS Institute Inc., 2006.
  40. Bello-González M.A., Salgado-Garciglia R. Plantas medicinales de la comunidad indígena Nuevo San Juan Parangaricutiro, Michoacán, México. Polibotanica. 2007;9:126-138.
  41. Ortega-Ortega T., Vázquez-García V. Satureja macrostema: situación ambiental, conocimiento local y roles de género. Madera y Bosques. 2014;20:71-86.
  42. Aguilar-Santelises R., del Castillo R.F. Demographic and socio-economic determinants of traditional plant knowledge among the Mixtecs of Oaxaca, Southern Mexico. Hum Ecol. 2015;43:655-667.
  43. Rangel-Landa S., Casas A., Rivera-Lozoya E., Torres-García I., and Vallejo-Ramos M. Ixcatec ethnoecology: Plant management and biocultural heritage in Oaxaca, Mexico. J Ethnobiol Ethnomed. 2016;12:30.
  44. Gómez-Luna R.E., Manzanero-Medina G.I., and Vásquez-Dávila M.A. Floristic and social aspects in zapotec orchards in Lachatao, Northern Sierra of Oaxaca, Mexico. Rev Bio Ciencias. 2017;4:1-15.
  45. Tello-Ortega K.E., Hernández-Santiago E., Rodríguez-Ortíz G. Medicina alternativa complementaria en el tratamiento de enfermedades crónicas en el sur de Oaxaca, México. Cienc Ergo sum. 2020;27:1-10.
  46. Cicevan R., Hassan M.A., Sestras A.F., Prohens J., Vicente O., Sestras R.E., Boscaiu. Screening for droughy tolerance in cultivars of the ornamental genus Tagetes (Asteraceae). Peer J. 2016;4:2133.
  47. Chen J., Ning S., Lu X., Xiang W., Zhou X., Bu Y., Li L., Huang R. Variation in flavonoid and antioxidant activities of Pyrrosia petiolosa (Christ) Ching from different geographic origins. Front Plant Sci. 2023;14:1173489.
  48. Zhang X.D., Yu Y.G., Yang D.F., Qi Z.C., Liu R.Z., Deng F.T., Caid Z.X., Li Y., Sun Y.F., Liang Z.S. Chemotaxonomic variation in secondary metabolites contents and their correlation between environmental factors in Salvia miltiorrhiza Bunge from natural habitat of China. Ind Crops Prod. 2018;113:335-47.
  49. Ullah A., Munir S., Badshah S.L., Khan N., Ghani L.., Poulson B.G., Emwas A-H., Jaremko M. Important flavonoids and their role as a therapeutic agent. Molecules. 2020;25:5243.
  50. Núñez S., Moliner C., Valero M.S., Mustafa A.M., Maggi F., Gómez-Rincón C., López V. Antidiabetic and anti-obesity properties of a polyphenol-rich flower extract from Tagetes erecta L. and its effects on Caenorhabditis elegans fat stoages. J Phisiol Biochem. 2023;79:427-440.
  51. Hernández T., Canales M., Flores C, García AM, Durán A, Avila J.G. Antimicrobial activity of Tagetes lucida. Pharm Biol. 2006;44:19-22.
  52. Hernandez-Leon A., González-Trujano M.E., Narváez-González F., Pérez-Ortega G., Rivero-Cruz F., Aguilar M.I. Role of β-caryophyllene in the atinociceptive and anti-inflammatory effects of Tagetes lucida Cav. essential oil. Molecules. 2020;25:1-15.
  53. Li X., Li L., Lei W., Chua H.Z., Li Z., Huang X., Wang Q., Li N., Zhang H. Traditional Chinese medicine as a therapeutic option for cardiac fibrosis: pharmacolgy and mechanisms. Biomed Pharmacother. 2021;142:111979.
  54. Morales-Torres K., Mora-Román J.J., Fallas-Ramírez J.M., Rodríguez-Arrieta J.A., Orozco-Aguilar J. Absence of nephroprotective effect: evaluation of an aqueous extract of Clinopodium vimineum (L.) Kuntzie (Lamiaceae) a renal failure model with female Wistar rats. Eur J Pharm Med Res. 2022;9(10):43-50.
  55. Dunkić V., Kremer D., Grubesic R.j., Rodriguez J.V., Ballian D., Bogunic F., Stesevic D., Kosalec I., Bezic N., Stabentheiner E. Micromorphological and phytochemical traits of four Clinopodium L. species (Lamiaceae). S Afr J Bot. 2017;111:232-241.
  56. Li W., Gao Y., Zhao J., Wang Q. Phenolic, flavonoid, and lutein ester content and antioxidant activity of 11 cultivars of Chinese. J Agric Food Chem. 2007;55:8478-8484.
  57. Monterrosas-Brisson N., Herrera-Ruiz M., Jiménez-Ferrer E., Bahena-Pérez R., Avilés-Flores M., Fuentes-Mata M., Martínez-Duncker I., González-Cortazar M. Anti-inflammatory activity of coumarins isolated from Tagetes lucida Cav. Nat Prod Res. 2020;34:3244-3248.
  58. Estrada-Soto S., González-Trujano M.E., Rendón-Vallejo P., Arias-Durán L., Ávila-Villarreal G., Villalobos-Molina R. Antihypertensive and vasorelaxant mode of action of the ethanol-soluble extract from Tagetes lucida Cav. aerial parts and its main bioactive metabolites. J Ethnopharmacol. 2021;266:113399.
  59. Villa-Ruano N., Pacheco-Hernández Y., Cruz-Durán R., Lozoya-Gloria E. Volatiles and seasonal variation of the essential oil composition from the leaves of Clinopodium macrostemum var. laevigatum and its biological activities. Ind Crop Prod. 2015;77:741-747.
  60. Faizi S., Naz A. Jafrine, a novel and labile β-carboline alkaloid from the flowers of Tagetes patula. Tetrahedron. 2002;58:6185-6197.
آمار
تعداد مشاهده مقاله: 285
تعداد دریافت فایل اصل مقاله: 338


counter
سامانه مدیریت نشریات علمی. قدرت گرفته از سیناوب