A review on Anti-HIV activities of compounds isolated from the medicinal plant and advantage of plant tissue culture in development of Anti-HIV
Keywords:
AIDS, Micro propagation, advantages& disadvantages of tissue culture
Abstract
The AIDS pandemic is one of the most disastrous health and development issue in our world today. Tissue culturing of medicinal plants is widely used to produce active compounds for herbal and pharmaceutical industries. Natural products provide a large reservoir for screening of anti-HIV agents with novel structure and anti-viral mechanism because of their structural diversity. This work reviews in vitro micro propagation techniques and gives examples of various commercially important medicinal plants. Advantages-To produce many copies in any time of the same plants then which may be used to produce plants with better flowers, odour’s, fruits or any other properties of the plants that is beneficial to the human beings. Conclusion- HIV is the most common untreated word wide disease in now a days and Plant tissue culture is most important technique for growing new plant species in proper aseptic condition which are useful for the cure of HIV.
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2. Battinelli L, Mengoni F, Lichtner M, Mazzanti G, Saija A, Mastroianni CM, Vullo V, Effect of limonin and nomilin on HIV-1 replication on infected human mononuclear cells. Planta Med. 2003, 69: 910–913.
3. Calabrese C, A phase I trial of andrographolide in HIV positive patients and normal volunteers. Phytother. Res. 2002, 14: 333–338.
4. DANIDA. Assessment of potentials and constraints for development and use of plant biotechnology in relation to plant breeding and crop production in developing countries. Working paper. Ministry of Foreign Affairs, Denmark, 2002.
5. DeVries, J. and Toenniessen, G. Securing the harvest: Biotechnology, breeding and seed systems for African crops. The Rockefeller Foundation, New York. USA, 2001.
6. Duan H, Takaishi Y, Bando M, Kido M, Imakura Y, Lee KH, Novel sesquiterpene esters with alkaloid and monoterpene and related compounds from Tripterygium hypoglaucum: A new class of potent anti-HIV agents. Tetrahedron Lett. 1999, 40: 2969.
7. Kitch, L., Koch, M., and Sithole-Nang I, Crop Biotechnology: A working paper for administrators and policy makers in sub-Saharan Africa., FAO, 2002
8. Geuenich S, Goffine C, Venzke S, Nolkemper S, Baumann I, Plinkert P, Reichling J, Kepper OT, Aqueous extracts from peppermint, sage and lemon balm leaves display potent anti-HIV activity by increasing the virion density. Retrovirology, 2008, 5:27, doi: 10.1186/1742- 4690-5-27. retrovirology.com/contents/5/1/27
9. Hauber I, Hohenberga H, Holstermanna B, Hunsteinb W, Hauber J, The main green tea polyphenol epigallocatechin-3-gallate counteracts semen-mediated enhancement of HIV infection. PNAS USA. 2009, 106(22): 9033–9038.
10. International Service for the Acquisition of Agri-biotech Applications (ISAAA). isaaa.org
11. Itokawa H, Shi Q, Akiyama T, Morris-Natschke SL, Lee K-H (2008).Recent advances in the investigation of curcuminoids. Chinese Medicine 3:11. doi.10.1186/1749-8546-3-11. cmjournal.org/contents/3/1/11.
12. Kashiwada Y, Anti-AIDS agents. Sodium and potassium salts of caffeic acid triterpenes from Arnebia euchroma as anti-HIV agents. J. Nat. Prod, 1995, 58: 392–400.
13. Neurath AR, Strick N, Li Y-Y, Debnath AK, Punica granatum (Pomegranate) juice provides an HIV-1 entry inhibitor and candidate topical microbicide. BMC Infect. Diseases, 2004, 4(41) doi:10 1 186/1471- 2334-4-41.
14. Otake T, Mori M, Ueba N, Sutardjo S, Kusumoto IT, Hattori M, Namba T. Screening of Indonesian plant extracts for anti-human immunodeficiency virus-type1 (HIV-1) activity. Phytother. Res., 1995, 9: 6-10.
15. Philippine Recommends, 1994.
16. Park I-W, Han C, Song X, Green LA, Wang T, Liu Y, Cen C, Song X, Yang B, Chen G, He JJ, Inhibition of HIV-1 entry by extracts derived from traditional Chinese medicinal herbal plants. BMC Compliment. Alternat. Med. 2009, 9:29. doi:10.1186/1472-6882-9-29.
17. Qian-Cutrone J, Niruriside, a new HIV REV/RRE binding inhibitor from Phyllanthus niruri. J. Nat. Prod., 1996, 59: 196–199.
18. Swanson MD, Winter HC, Goldstein IJ, Markovitz DM, A lectin isolated from bananas is a potent inhibitor of HIV replication. J.Bio. Chem. 2010, 285: 8646-8655.
19. Rukachaisirikul V, Anti-HIV-1 protostane triterpenes and digeranylbenzophenone from trunk bark and stems of Garcinia, 2003.
20. speciosa. Planta Med. 69: 1141–1146.
21. Ruff, Anne Marie. “Sowing the Seeds of Revolution.” February 15, 2001. (undp.org.vn/mlist/envirovlc/022001/post50.htm)
22. Van den Beukel CJ, Hamza OJ, Moshi MJ, Matee MI, Milkx F, Burger DM, Koopmans PP, Verweij PE, Schoonen WG, van der Ven AJ. Evaluation of cytotoxic, genotoxic and CYP450 enzymatic competition effects of Tanzanian plant extracts traditionally used for treatment of fungal infections. Basic Clin. Pharmacol. Toxicol. 2008, 102(6): 515-526.
23. Wambugu, F. and Kiome, R. The benefits of biotechnology for small-scale banana farmers in Kenya. ISAAA Briefs No. 22. 2001. ISAAA: Ithaca, NY.
24. West Africa Rice Development Association (WARDA) warda.cgiar.org
25. Xu HX, Zeng FQ, Wan M, Sim KY, Anti-HIV triterpene acids from Geum japonicum. J. Nat. Prod. 1996, 59: 643–645
26. Zhu K, Cordeiro ML, Atienza J, Robinson Jr EW, Chow S, Irreversible inhibition of human immunodeficiency virus type integrase by dicaffeoylquinic acids. J. Virol. 1999, 73(4): 3309-3316.
27. aidsinfo.nih.gov/guidelines
Published
2014-02-01
How to Cite
[1]
Tripathi, S. and Pandey, A. 2014. A review on Anti-HIV activities of compounds isolated from the medicinal plant and advantage of plant tissue culture in development of Anti-HIV. PharmaTutor. 2, 2 (Feb. 2014), 17-24.
Section
Articles
