PRELIMINARY PHYTOCHEMICAL ANALYSIS AND IN VITRO BIOLOGICAL ACTIVITIES OF OTOSTEGIA LIMBATA LEAVES ETHANOLIC EXTRACT AGAINST ORAL PATHOGENS
Main Article Content
Keywords
Phytochemicals, HPLC, Antibacterial, Antifungal and Cytotoxic activity, Otostegia limbata.
Abstract
In the present investigation, we have accessed Phytochemicals, HPLC, Antibacterial, Antifungal and Cytotoxic activity of Otostegia limbata.. It diverted our attention to one of its potent species to be unveiled in this research. The focus of this study was to examine systematically its biological activities and seek out its chemical constituents. Qualitative phytochemical analysis removed phenols, glycosides, flavonoids, alkaloids, quinone, carbohydrates, amino acid, terpenes and coumarins are presence while tannins, saponins and sterols are absence. In Quantitative the O. limbata leaves parts for isolation of active phtometabolites namely alkaloids, sterol, flavonoids, tannins and phenols. The HPLC analysis showed that the samples contained eight identified phenolic compounds, of which Gallic acid, Catechol, Hydroxybenzoic acid, Caffeic acid were most abundant. The antibacterial activity of ethanolic extract displayed the highest inhibition region against Streptococcus mitis that was 35 ± 0.1 (ZOI±SD) and the lowest inhibition region against S .aureus that was 14 ± 0.3 (ZOI±SD) in 200mg/ml ± SD.The antifungal activity resulted that ethanol shows the maximum inhibition zone against A.fumigatus that was 29 ± 0.1 (ZOI±SD) and the minimum inhibition zone against Aspergillus flavus that was 19 ± 0.4 (ZOI±SD) in 200mg/ml ± SD. The ethanolic extract of research plant were exposed to cytotoxic assay at concentrations is 50µg/ml, 100µg/ml and 150µg/ml and their results were calculated that indicates that at 50µg/ml is 60%, 100µg/ml is 70% and 150µg/ml is 80%. The current study suggested that, after the isolation of individual components, O. limbata be investigated for assessing biological activity.
References
2. Abbasi AM, Khan MA, Ahmad M, Zafar M, Jahan S, Sultana S (2010) Ethnopharmacological application of medicinal plants to cure skin diseases and in folk cosmetics among the tribal communities of North-West Frontier Province, Pakistan. Journal of ethnopharmacology 24,128, 2, 322-35.
3. Aga H, Shibuya T, Sugimoto T, Kurimoto M, Nakajima S (1994) Isolation and identification of antimicrobial compounds in Brazilian propolis. Bioscience, biotechnology, and biochemistry 1, 58, 5, 945-6.
4. Anthony F, Diniz LE, Combes MC, Lashermes P (2010) Adaptive radiation in Coffea subgenus Coffea L.(Rubiaceae) in Africa and Madagascar. Plant Systematics and Evolution 285, 51-64.
5. Arora K, Arora R (2021) Phytochemical Screening. Antioxidant Activity and Antimicrobial Susceptibility of Trachyspermum ammi and Trigonella foenum graceum Against Dental Caries Causing Microbes.
6. Bankova V, Christoy R, Stoev G, Popov S (1992) Determination of phenolics from propolis by capillary gas chromatography. Journal of Chromatography 21, 607, 1, 150-3.
7. Carron R.A, Maran J.M, Montero L, Fernandozaigo, Dominguez A.A (1987) Plantes Med. Phytotherapic 21, 195-202.
8. Chung KT, Wei CI, Johnson MG (1998) Are tannins a double-edged sword in biology and health? Trends in Food Science & Technology 1, 9, 4,168-75.
9. Drasar PB, Khripach VA (2019) Growing importance of natural products research. Molecules 18, 25, 1:6.
10. Essawi T, Srour M (2000) Screening of some Palestinian medicinal plants for antibacterial activity. Journal of ethnopharmacology 15, 70, 3, 343-9.
11. Enjalric F, Carron MP, Lardet L (1987) Contamination of primary cultures in tropical areas: The case of Hevea brasiliensis. Bacterial and Bacteria-like Contaminants of Plant Tissue Cultures 225, 23, 57-66.
12. Farrukh M, Saleem U, Qasim M, Manan M, Shah MA (2022) Sarcococca saligna extract attenuates formaldehyde-induced arthritis in Wistar rats via modulation of pro-inflammatory and inflammatory biomarkers. Inflammopharmacology 30, 2, 579-97.
13. Gamboe RW, Chavez P, Baker WP (2008) Antimicrobial activity of natural plant extracts against five bacterial species. Journal of the Arizona-Nevada Academy of Science 40, 2:165-7.
14. Haq MN, Wazir SM, Ullah F, Khan RA, Shah MS, Khatak A (2016) Phytochemical and biological evaluation of defatted seeds of Jatropha curcas. Sains Malays 1, 45(10):1435-42.
15. Hedge I.C, Ali S.I, Nasir Y. J (Eds.) (1990) Labiatae Flora of Pak. (Eds.) No. 192. Karachi & Islamabad.
16. Jamshed H, Siddiqi HS, Gilani AU, Arslan J, Qasim M, Gul B (2019) Studies on antioxidant, hepatoprotective, and vasculoprotective potential of Viola odorata and Wrightia tinctoria. Phytotherapy Research 33, 9, 2310-8.
17. Javed, B., Nawaz, K. and Munazir, M (2020) Phytochemical analysis and antibacterial activity of tannins extracted from Salix alba L. against different gram-positive and gram-negative bacterial strains. Iranian Journal of Science and Technology, Transactions A: Science 44, 5,1303-1314.
18. Kale AA, Gaikwada SA, Kamble GS (2011) In vitro anthelmintic activity of stem bark of Juglans regia L. Journal of Chemical and Pharmaceutical Research 3, 2, 298-302.
19. Kiani A, Jalili-baleh L, Abdollahi Z, Nadri H, Foroumadi A (2019) Sadat Ebrahimi SE, Khoobi M. Cholinesterase inhibition activity and docking simulation study of coumarin mannich base derivatives. Journal of Sciences, Islamic Republic of Iran 26,30, 1, 5-12.
20. Koo H, Gomes BP, Rosalen PL, Ambrosano GM, Park YK, Cury JA (2000) In vitro antimicrobial activity of propolis and Arnica montana against oral pathogens. Archives of oral biology 1, 45, 2, 141-8.
21. Lezoul NE, Belkadi M, Habibi F, Guillén F (2020) Extraction processes with several solvents on total bioactive compounds in different organs of three medicinal plants. Molecules 13, 25, 20, 4672.
22. Meyer BN, Ferrigni NR, Putnam JE, Jacobsen LB, Nichols DE, McLaughlin JL (1982) Brine shrimp: a convenient general bioassay for active plant constituents. Planta medica 45, 05:31-4.
23. Mohammed FS, Pehlivan M, Sevindik M (2019) Antioxidant, antibacterial and antifungal activities of different extracts of Silybum marianum collected from Duhok (Iraq). International Journal of Secondary Metabolite 6, 4, 317-22.
24. Muhammad H, Qasim M, Ikram A, Versiani MA, Tahiri IA, Yasmeen K, Abbasi MW, Azeem M, Ali ST, Gul B (2020) Antioxidant and antimicrobial activities of Ixora coccinea root and quantification of phenolic compounds using HPLC. South African Journal of Botany 1, 135, 71-9.
25. Morrison J, Coromilas JA, Robbins M, Ong LA, Eisenberg S, Stechel RI, Zema MI, Reiser PE, Scherr LA (1980) Digitalis and myocardial infarction in man. Circulation 62, 1, 8-16.
26. Nwankwo, I.U., Onwuakor, C.E. and Aninweze, O.N (2014) Antibacterial activity of Ethanolic extracts of Citrus sinensis peels on Staphylococcus aureus, Escherichia coli and Pseudomonas aeruginosa isolated from wound infections. International Journal of Advances in Pharmacy, Biology and Chemistry 3, 4, 941-947.
27. Oikeh EI, Oviasogie FE, Omoregie ES (2020) Quantitative phytochemical analysis and antimicrobial activities of fresh and dry ethanol extracts of Citrus sinensis (L.) Osbeck (sweet Orange) peels. Clinical Phytoscience 6, 1, 1-6.
28. Philip JM, Mahalakshmi K (2019) Antimicrobial effect of three Indian medicinal plant extracts on common denture plaque bacteria. Drug Invention Today 1, 11(3).
29. Qasim M, Abideen Z, Adnan MY, Gulzar S, Gul B, Rasheed M, Khan MA (2017) Antioxidant properties, phenolic composition, bioactive compounds and nutritive value of medicinal halophytes commonly used as herbal teas. South African Journal of Botany 1, 110,240-50.
30. Rashid S, Ahmad M, Zafar M, Sultana S, Ayub M, Khan MA, Yaseen G (2015) Ethnobotanical survey of medicinally important shrubs and trees of Himalayan region of Azad Jammu and Kashmir, Pakistan. Journal of Ethnopharmacology 26, 166,340-51.
31. Rosselli S, Fontana G, Bruno M (2019) A review of the phytochemistry, traditional uses, and biological activities of the genus Ballota and Otostegia. Planta medica 85, 11/12, 869-910.
32. Sadaf HM, Bibi Y, Riaz I, Sultan MA, Bibi F, Bibi M, Hussain M, Sabir S (2016) Pharmacological aptitude and profiling of active constituent from Otostegia limbata-Comprehensive review. Asian Pacific Journal of Tropical Disease 1, 6, 11, 918-24.
33. Saquib SA, AlQahtani NA, Ahmad I, Kader MA, Al Shahrani SS, Asiri EA (2019) Evaluation and comparison of antibacterial efficacy of herbal extracts in combination with antibiotics on periodontal pathobionts: an in vitro microbiological study. Antibiotics 1, 8, 3, 89.
34. Scheen AC, Albert VA (2007) Nomenclatural and taxonomic changes within the Leucas clade (Lamioideae; Lamiaceae). Systematics and Geography of Plants 1, 229-38.
35. World Health Organization. The world health report (2002) reducing risks, promoting healthy life. World Health Organization.
Article Sidebar
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
All articles published in JPTCP are licensed under Copyright Creative Commons Attribution-NonCommercial 4.0 International License.
Khursheed Rahman
Department of Botany, Hazara, University, Mansehra 21300, Pakistan.
Ghulam Mujtaba Shah
Department of Botany, Hazara, University, Mansehra 21300, Pakistan.
Muhammad Ajmal Shah
Department of Pharmacy, Hazara University, Mansehra 21300, Pakistan.
Muhammad Ikram
Department of Pharmacy, COMSATS University Islamabad, Abbottabad Campus 22060, Pakistan
Muhammad Fiaz
Department of Botany, Hazara, University, Mansehra 21300, Pakistan.
Jan Alam
Department of Botany, Hazara, University, Mansehra 21300, Pakistan.
Muhammad Sajid
Department of Agriculture, Hazara University, Mansehra 21300, Pakistan.