Immunoregulatory effects of flavonoid-containing medicinal herbs in human peripheral blood mononuclear cells
- Authors: Mikhailova I.V.1, Perunova N.B.2, Ivanova E.V.1,2, Chaynikova I.N.1,2, Filippova Y.V.1, Kuzmicheva N.A.1
-
Affiliations:
- Orenburg State Medical University
- Institute of Cellular and Intracellular Symbiosis, Ural Branch, Russian Academy of Sciences, Branch of Orenburg Federal Research Center, Ural Branch, Russian Academy of Sciences
- Issue: Vol 23, No 2 (2020)
- Pages: 139-144
- Section: SHORT COMMUNICATIONS
- Submitted: 20.10.2020
- Accepted: 20.10.2020
- Published: 15.04.2020
- URL: https://rusimmun.ru/jour/article/view/556
- DOI: https://doi.org/10.46235/1028-7221-330-IEO
- ID: 556
Cite item
Full Text
Abstract
Plant-derived medicinal products provide a prominent advantage due to their low toxicity to humans and combined effects of biologically active substances, mainly presented by polysaccharides, flavonoids and terpenoids. One of the mechanisms undedrlying effects from medicinal plants on the immunoregulationrelated events is mediated via controlled production of certain cytokines. Here we examined immunoregulatory activity of water extracts derived from medicinal plant raw materials (LRS) containing polyphenolic compounds – flavonoids (rutin, quercetin, called P-vitamins). The aim of the study was to assess profile and level of cytokines secreted by human peripheral blood mononuclear cedlls exposured to flavonoid-containing LRS water extracts. LRS (1:10) water extracts of the following species were used: black currant leaves (Ribes nigrum L.), field horsetail grass (Equisetum arvense L.), common yarrow grass (Achillea millefolium L.), licorice roots (Glycyrrhiza uralensis Fisch.), sand immortelle flowers (Helichrysum arenarium (L.) Moench), wild strawberry leaves (Fragaria vesca L.), fruit common bird cherry (Padus avium Mill.), tansy flowers (Tanacetum vulgare L.) and oat grass (Avena sativa L.) (all purchased at the pharmacy). Production of pro – (TNFα, IL-8, IL-1β) and anti-inflammatory (IL-10) cytokines was measured by using ELISA kits (“Cytokine”, Russia) in mononuclear cell culture supernatant treated with / without LRS (experiment and control group, respectively). Amount of flavonoids contained in flowers and leaves was quantified aftedr complexation reaction with aluminum chloride on UV-3600 spectrophotometer (Shimadzu, Japan). It was found that LRS water extracts predominantly inhibited production both of pro- (TNFα, IL-8, IL-1β) and anti-inflammatory (IL-10) cytokines so that magnitude of such suppressive effect ranged from 51.5±3.4 to 99.5±4.1% compared to untreated control samples (p < 0.05). Total flavonoid level in the LRS samples diirectly correlated with intensity of related immunoregulatory activity on cytokine secretion particularly TNFα (r = 0.65), IL-8 (r = 0.4), IL-1β (r = 0.48) and IL-10 (r = 0.68). The data of our study allow to conclude that extracts from the examined medicinal plant raw materials can be considered as promising components while developing new drugs with exhibiting immunoregulatory and antiflogogenic effects.
Keywords
About the authors
I. V. Mikhailova
Orenburg State Medical University
Author for correspondence.
Email: michaylova74@yandex.ru
Mikhailova Irina V. - PhD, MD (Biology), Associate Professor, Head, Department of Pharmaceutical Chemistry
460000, Orenburg, Park ave., 7
Phone: 7 (905) 886-44-48
N. B. Perunova
Institute of Cellular and Intracellular Symbiosis, Ural Branch, Russian Academy of Sciences, Branch of Orenburg Federal Research Center, Ural Branch, Russian Academy of Sciences
Email: fake@neicon.ru
PhD, MD (Medicine), Professor, Russian Academy of Sciences, Head, Laboratory for Biomonitoring and Molecular Genetic Research
Orenburg
Russian FederationE. V. Ivanova
Orenburg State Medical University; Institute of Cellular and Intracellular Symbiosis, Ural Branch, Russian Academy of Sciences, Branch of Orenburg Federal Research Center, Ural Branch, Russian Academy of Sciences
Email: fake@neicon.ru
PhD, MD (Medicine), Associate Professor, Department of Pharmaceutical Chemistry; Leading Research Associate, Laboratory of Biomonitoring and Molecular Genetic Research
Orenburg
Russian FederationI. N. Chaynikova
Orenburg State Medical University; Institute of Cellular and Intracellular Symbiosis, Ural Branch, Russian Academy of Sciences, Branch of Orenburg Federal Research Center, Ural Branch, Russian Academy of Sciences
Email: fake@neicon.ru
PhD, MD (Medicine), Professor, Department of Normal Physiology; Leading Research Associate, Laboratory of Biomonitoring and Molecular Genetic Research
Orenburg
Russian FederationYu. V. Filippova
Orenburg State Medical University
Email: fake@neicon.ru
PhD (Medicine), Assistant, Department of Pharmaceutical Chemistry
Orenburg
Russian FederationN. A. Kuzmicheva
Orenburg State Medical University
Email: fake@neicon.ru
Assistant Professor, Department of Pharmaceutical Chemistry
Orenburg
Russian FederationReferences
- Фролов Б.А., Чайникова И.Н., Филиппова Ю.В., Смолягин А.И., Панфилова Т.В., Железнова А.Д. Механизмы реализации защитного действия милиацина при экспериментальной сальмонеллезной инфекции: влияние на эндотоксинемию и продукцию цитокинов // Журнал микробиологии, эпидемиологии и иммунобиологии, 2014. № 5. С. 8-12. [Frolov B.A., Chaynikova I.N., Filippova Yu.V., Smolyagin A.I., Panfilova T.V., Zheleznova A.D. Mechanisms for the implementation of the protective effect of miliacin in experimental salmonella infection: effect on endotoxinemia and cytokine production. Zhurnal mikrobiologii, epidemiologii i immunobiologii = Journal of Microbiology, Epidemiology and Immunobiology, 2014, no. 5, pp. 8-12. (In Russ.)]
- Agati G., Azzarello E., Pollastri S., Tattini M. Flavonoids as antioxidants in plants: location and functional significance. Plant Sci., 2012, no. 196, рр. 67-76.
- Asadi-Samani M., Bagheri N., Rafieian-Kopaei M., Shirzad H. Inhibition of Th1 and Th17 cells by medicinal plants and their derivatives: A systematic review. Phytother. Res., 2017, Vol. 31, no. 8, рр. 1128-1139.
- Biswas T., Dwivedi U.N. Plant triterpenoid saponins: biosynthesis, in vitro production, and pharmacological relevance. Protoplasma, 2019, Vol. 256, no. 6, рр. 1463-1486.
- Farzaei M.H., Farzaei F., Abdollahi M., Abbasabadi Z., Abdolghaffari A.H., Mehraban B. A mechanistic review on medicinal plants used for rheumatoid arthritis in traditional Persian medicine. J. Pharm. Pharmacol., 2016, Vol. 68, no. 10, рр.1233-1248.
- Gandhi G.R., Neta M., Sathiyabama R.G., Quintans J., de Oliveira E, Silva A.M., Araújo A., Narain N., Júnior L., Gurgel R. Q. Flavonoids as Th1/Th2 cytokines immunomodulators: A systematic review of studies on animal models. Phytomedicine, 2018, Vol. 44, pp. 74-84.
- Hosseinzade A., Sadeghi O., Naghdipour Biregani A., Soukhtehzari S., Brandt G.S., Esmaillzadeh A. Immunomodulatory effects of flavonoids: possible induction of T CD4+ regulatory cells through suppression of mTOR pathway signaling activity. Front. Immunol., 2019, Vol. 10, рр. 41-51.
- Kumar S., Pandey A.K. Chemistry and biological activities of flavonoids: an overview. Sci. World J., 2013, Vol. 2013, 162750. doi: 10.1155/2013/162750.
- Leyva-López N., Gutierrez-Grijalva E.P., Ambriz-Perez D.L., Heredia J.B. Flavonoids as cytokine modulators: A possible therapy for inflammation-related diseases. Int. J. Mol. Sci, 2016, Vol. 17, no. 6, 921. doi: 10.3390/ijms17060921.
- Martínez G., Mijares M.R., de Sanctis J.B. Effects of flavonoids and its derivatives on immune cell responses. Recent Pat. Inflamm. Allergy Drug Discov., 2019, Vol. 13, no. 2, pp. 84-104.
- Moses T., Papadopoulou K.K., Osbourn A. Metabolic and functional diversity of saponins, biosynthetic intermediates and semi-synthetic derivatives. Crit. Rev. Biochem. Mol. Biol., 2014, Vol. 49, no. 6, pp. 439-462.
- Silva V., Dos Santos M.H., Viegas C. Biological and chemical aspects of natural biflavonoids from plants: A brief review. Mini-Rev. Med. Chem., 2017, Vol. 17, no. 10, рр. 834-862.
- Shirley B.W. Flavonoid biosynthesis: “new” functions for an “old” pathway. Trends Plant Sci., 1996, Vol. 1, no. 11, pp. 377-382.
- Yi Y.S. Regulatory roles of flavonoids on inflammasome activation during inflammatory responses. Mol. Nutr. Food Res., 2018, Vol. 62, no 13, e1800147. doi: 10.1002/mnfr.201800147.
- Zhang B., Wang B., Cao S., Wang Y., Wu D. Silybin attenuates LPS-induced lung injury in mice by inhibiting NF-kB signaling and NLRP3 activation. Int. J. Mol. Med., 2017, Vol. 39, no. 5, pp. 1111-1118.