LEAF PRODUCTIVITY OF SHOOTS, CHEMICAL COMPOSITION AND PROSPECTIVE BIOACTIVITY OF CELASTRUS SPECIES INTRODUCED INTO MOSCOW REGION
Abstract
Plants are known to contain chemical constituents of great physiological activity, some of them are antioxidants or possess anti-cancer properties. The presence of these constituents in renewable plant parts – fruits and leaves – is particularly valuable. A search for plants with pronounced medicinal properties, including anti-cancer, within local floras or among cultivated plants that have passed introductory trials successfully, is of great relevance. An example of such plants introduced in Moscow region is the genus Celastrus and its representatives. Our research is aimed at revealing plants with the highest leaf productivity of shoots and contents of bioactive substances in the leaves within this genus. The research encompassed 6 taxa from the genus Celastrus grown in the Arboretum of the Main Botanic Garden named after N.V. Tsitsin RAS. For the study, 19-20 highly elongated annual shoots per plant of each taxon were collected, their leaf weight and morphometric characteristics were recorded, and the results processed by means of variation statistics. For biochemical studies, frozen leaf samples were analyzed by methods of high-performance liquid chromatography with UV and mass-detection. Spectral data of constituents prevailing in methanol extracts were obtained. Main classes of compounds found in leaves of the studied taxa were flavonoid glucosides: the derivatives of quercetin and kaempferol as well as condensed tannins, catechin and afzelechin derivatives. A comparative analysis demonstrated that C. flagellaris, C. strigillosus and C. orbiculatus var. punctatus, containing afzelechin and its derivatives in their leaves, can be recommended as promising plants for future investigations.
Downloads
References
References
Bandyukova V.A., Sergeeva N.V. Sostoyanie khimicheskogo izucheniya rasteniy poryadka Celastrales [State of the chemical study of plants of the order Celastrales]. Rastitel'nye resursy, 1977, vol. 13 (3), pp. 560-569.
Sredstva ayurvedy [Ayurvedic remedies]. https://himalay.ru/product/geriforte/ (accessed September 30, 2022).
Spravochnik lekarstvennykh sredstv [Directory of medicines]. https://www.vidal.ru/veterinar/geriforte-vet-liquid-28116#composition (accessed September 27, 2022).
Drevesnye rasteniya Glavnogo botanicheskogo sada im N.V.Tsitsina RAN: 60 let introduktsii [Woody plants of the Main Botanical Garden named after N.V. Tsitsin RAS: 60 years of introduction]. Moscow: Nauka, 2005, 586 p.
Zaytsev G.N. Matematika v eksperimental'noy botanike [Mathematics in experimental botany]. Moscow: Nauka, 1990, 256 p.
Kostina M.V., Savinov I.A. Stroenie i ritm razvitiya generativnykh pobegov v rode Celastrus L. (Celastraceae R.Br.) [Structure and rhythm of development of generative shoots in the genus Celastrus L. (Celastraceae R.Br.)]. Byull. Glavnogo botanicheskogo sada RAN, 2002, no. 183, pp. 31-40.
Rastitel'nye resursy Rossii: Dikorastushchie tsvetkovye rasteniya, ikh komponentnyy sostav i biologicheskaya aktivnost' Vol. 3. Semeystva Fabaceae – Apiaceae [Plant resources of Russia: Wild flowering plants, their component composition and biological activity Vol. 3. Families Fabaceae - Apiaceae]. Semeystvo Celastraceae [Family Celastraceae], Moscow – Saint-Petersburg: KMK, 2010, pp. 130-136.
Savinov I.A., Solomonova E.V., Trusov N.A., Simakov G.A. Produktivnost' listovoy massy Celastrus orbiculatus Thunb. (Celastraceae) v usloviyakh Moskovskogo regiona [Leaf productivity of Celastrus orbiculatus Thunb. (Celastraceae) in the conditions of the Moscow region]. Vestnik KrasGAU, 2022, vol. 12, pp. 49-53. https://doi.org/10.36718/1819-4036-2022-12-49-53
Savinov I.A., Solomonova E.V., Trusov N.A., Simakov G.A. Botanicheskaja ocenka lekarstvennogo potenciala drevogubcev (Celastrus L.) [Botanical evaluation of medicinal potential of bittersweets (Celastrus L.)]. Izvestija Timirjazevskoj sel'skohozjajstvennoj akademii, 2022, iss. 6, pp. 13-30. https://doi.org/10.26897/0021-342Х-2022-6-13-30
Khimkolin, instruktsiya po primeneniyu [Himcolin, instructions for use], https://speman-shop.ru/Himcolin_instruction.pdf (accessed September 25, 2022).
Shul'gina V.V. Rod Drevogubets, ili Krasnopuzyrnik – Celastrus L. Derev'ya i kustarniki SSSR [Trees and shrubs of the USSR], 1958, vol. 4, pp. 391-397.
R. Chang C. Wang Q. Zeng, B. Guan, W. Zhang H. Jin Chemical components of the stems of Celastrus rugosus. Pharmacal Research, 2013, vol. 36, рр. 1291-1301.
De Bruyne T. et al. Condensed vegetable tannins: biodiversity in structure and biological activities. Biochemical Systematics and Ecology, 1999, vol. 27, no. 4, pp. 445-459.
Ding Hou. A revision of the genus Celastrus. Ann. Miss. Bot. Gard, 1955, vol. 42, no. 3, рр. 215-302.
Duke. J.A., Ayensu. E.S. Medicinal Plants of China. Reference Publications, 1985, 705 p.
Foster. S., Duke. J.A. A Field Guide to Medicinal Plants. Houghton Mifflin Co, 1990, 411 p.
Godkar P.B., Gordon R.K., Ravindran A., Doctor B.P. Celastrus paniculatus seed oil and organic extracts attenuate hydrogen peroxide- and glutamate-induced injury in embryonic rat forebrain neuronal cells. Phytomedicine, 2006, no. 13 (1-2), рр. 29-36.
Kanao M., Shimokoriyama N. A flavones glycoside of Celastrus orbiculata. Acta phytochem, 1949, no. 15, рр. 229.
Maurya H., Arya R.K.K., Belwal T., Rana M., Kumar A. Celastrus paniculatus. Naturally Occurring Chemicals Against Alzheimer's Disease, 2021, рр. 425-435.
Mu X.-Y., Zhao L.-C., Zhang Z.-X. Phylogeny of Celastrus L. (Celastraceae) inferred from two nuclear and three plastid markers. J Plant Res, 2012, no. 125, рр. 619-630.
Rzadkowska-Bodalska H. Flawonoidy w lisciach Celastrus orbiculata Thunb. Rocz. chem., 1970, no. 44 (2), рр. 283.
Shen Y. et al. Traditional uses, secondary metabolites, and pharmacology of Celastrus species-a review. Journal of ethnopharmacology, 2019, vol. 241, рр. 111934.
Yang N. et al. Comprehensive metabolomics analysis based on UPLC-Q/TOF-MS E and the anti-COPD effect of different parts of Celastrus orbiculatus Thunb. RSC advances, 2020, vol. 10, №. 14, рр. 8396-8420.
Список литературы
Бандюкова В.А., Сергеева Н.В. Состояние химического изучения растений порядка Celastrales // Растительные ресурсы. 1977. Т. 13, вып. 3. С. 560-569.
Герифорте // Средства аюрведы [Электронный ресурс]. URL: https://himalay.ru/product/geriforte (дата обращения: 30.09.2022).
Герифорте вет жидкость // Справочник лекарственных средств [Электронный ресурс]. URL: https://www.vidal.ru/veterinar/geriforte-vet-liquid-28116#composition (дата обращения: 27.09.2022).
Древесные растения Главного ботанического сада им Н.В.Цицина РАН: 60 лет интродукции / Отв. ред. А.С. Демидов. М.: Наука, 2005. 586 с.
Зайцев Г.Н. Математика в экспериментальной ботанике. М.: Наука, 1990. 256 с.
Костина М.В., Савинов И.А. Строение и ритм развития генеративных побегов в роде Celastrus L. (Celastraceae R.Br.) // Бюлл. Главного ботанического сада РАН. 2002. Вып. 183. С. 31-40.
Растительные ресурсы России: Дикорастущие цветковые растения, их компонентный состав и биологическая активность Т. 3. Семейства Fabaceae – Apiaceae // Семейство Celastraceae: сост. Л.И. Шагова, А.Л. Буданцев, Т.А. Орлова / Отв. ред. А.Л. Буданцев. – М.-СПб: Тов-во научн. изд. КМК, 2010. 601 с. C. 130-136.
Савинов И.А., Соломонова Е.В., Трусов Н.А., Симаков Г.А. Продуктивность листовой массы Celastrus orbiculatus Thunb. (Celastraceae) в условиях Московского региона // Вестник КрасГАУ. 2022. Вып. 12. C. 49-53. https://doi.org/10.36718/1819-4036-2022-12-49-53
Савинов И.А., Соломонова Е.В., Трусов Н.А., Симаков Г.А. Ботаническая оценка лекарственного потенциала древогубцев (Celastrus L.) // Известия ТСХА. 2022. Выпуск 6. С. 13-30. https://doi.org/10.26897/0021-342Х-2022-6-13-30
Химколин, инструкция по применению [Электронный ресурс]. URL: https://speman-shop.ru/Himcolin_instruction.pdf (дата обращения: 25.09.2022).
Шульгина В.В. Род Древогубец, или Краснопузырник – Celastrus L. / Соколов С.Я. (ред.) // Деревья и кустарники СССР. 1958. Т. 4. С. 391-397.
Chang R. et al. Chemical components of the stems of Celastrus rugosus / R. Chang C. Wang Q. Zeng, B. Guan, W. Zhang H. Jin // Pharmacal Research. 2013. Vol. 36. P. 1291-1301.
De Bruyne T. et al. Condensed vegetable tannins: biodiversity in structure and biological activities // Biochemical Systematics and Ecology. 1999. Т. 27. № 4. С. 445-459.
Ding Hou. A revision of the genus Celastrus // Ann. Miss. Bot. Gard. 1955. Vol. 42. № 3. P. 215-302.
Duke. J.A., Ayensu. E.S. Medicinal Plants of China. Reference Publications. 1985. 705 p.
Foster. S., Duke. J.A. A Field Guide to Medicinal Plants. Houghton Mifflin Co. 1990. 411 p.
Godkar P.B., Gordon R.K., Ravindran A., Doctor B.P. Celastrus paniculatus seed oil and organic extracts attenuate hydrogen peroxide- and glutamate-induced injury in embryonic rat forebrain neuronal cells // Phytomedicine. 2006. Vol. 13 (1-2). P. 29-36.
Kanao M., Shimokoriyama N. A flavones glycoside of Celastrus orbiculata. Acta phytochem. 1949. Vol. 15. P. 229.
Maurya H., Arya R.K.K., Belwal T., Rana M., Kumar A. Celastrus paniculatus // Naturally Occurring Chemicals Against Alzheimer's Disease. 2021. P. 425-435.
Mu X.-Y., Zhao L.-C., Zhang Z.-X. Phylogeny of Celastrus L. (Celastraceae) inferred from two nuclear and three plastid markers // J Plant Res. 2012. № 125. Р. 619-630.
Rzadkowska-Bodalska H. Flawonoidy w lisciach Celastrus orbiculata Thunb. // Rocz. chem. 1970. Vol. 44 (2). P. 283.
Shen Y. et al. Traditional uses, secondary metabolites, and pharmacology of Celastrus species-a review // Journal of ethnopharmacology. 2019. Т. 241. С. 111934.
Yang N. et al. Comprehensive metabolomics analysis based on UPLC-Q/TOF-MS E and the anti-COPD effect of different parts of Celastrus orbiculatus Thunb // RSC advances. 2020. Т. 10. №. 14. С. 8396-8420.
Copyright (c) 2024 Ivan A. Savinov, Ekaterina V. Solomonova, Nikolay A. Trusov, Alexey V. Zhevnerov, Elena Yu. Yembaturova, Sokrat G. Monakhos
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
