Subscribe to RSS
DOI: 10.1055/s-2005-873170
Solanum chrysotrichum Hairy Root Cultures: Characterization, Scale-Up and Production of Five Antifungal Saponins for Human Use
Publication History
Received: December 17, 2004
Accepted: July 13, 2005
Publication Date:
18 October 2005 (online)
Abstract
The production of five antifungal saponins (SC-2 - SC-6) recently extracted from Solanum chrysotrichum leaves was performed using hairy root cultures grown in 250-mL flasks and in 2-L modified draught-tube internal-loop airlift reactors (2-L MR). In both scales, first order growth kinetics were observed, reaching specific growth rates of 0.08 and 0.12 d-1, respectively. Root density at the end of the culture period was the same for the flasks and for the 2-L MR. In flasks the production of the most active saponin SC-2 was growth-associated, with a maximum yield of 0.04 % dry weight, while in the 2-L MR an SC-2 yield of 0.7 % dry weight was reached, representing a value six times greater than that observed for plant leaves. SC-3 was obtained from root biomasses grown in flasks, while SC-4 was recovered from biomasses at both levels under investigation. SC-5 and SC-6 were only detected in the culture medium of roots grown in 2-L MR. Solanum chrysotrichum hairy root cultures and their scale-up in reactors are feasible strategies for the production of these antifungal compounds for human use.
References
- 1 Lozoya X, Navarro V, García M, Zurita M. Solanum chrysotrichum (Schdl) a plant used in México for treatment of skin mycosis. J Ethnopharmacol. 1992; 36 127-32
- 2 Alvarez L, Perez M C, González J L, Navarro V, Villarreal M L, Olson J O. SC-1 an antimycotic spirostan saponin from Solanum chrysotrichum . Planta Med. 2001; 67 372-74
- 3 Zamilpa A, Tortoriello J, Navarro V, Delgado G, Alvarez L. Five new steroidal saponins from Solanum chrysotrichum leaves and their antimycotic activity. J Nat Prod. 2002; 65 1815-9
- 4 Villarreal M L, Arias C, Vega J, Feria A V, Ramírez O T, Nicasio P. et al . Large-scale cultivation of Solanum crhysotrichum cells: production of the antifungal saponin SC-1 in 10-L airlift bioreactors. Plant Cell Rep. 1997; 16 653-6
- 5 Giri A M, Narasu L M. Transgenic hairy roots: recent trends and applications. Biotechnol Adv. 2000; 18 1-22
-
6 Doran P. Properties and applications of hairy roots cultures.
In: Plant Biotechnology and Transgenic Plants. Oskman-Caldentey KM, Barz W, editors New York; Marcel Dekker 2002: pp 143-62 - 7 Caspeta L, Quintero R, Villarreal M L. Novel airlift reactor fitting for hairy root cultures: developmental and performance studies. Biotechnol Prog. 2005; 21 735-40
- 8 Mori T, Sakurai M, Sakuta M. Changes in PAL, CHS, and DAHP synthase (DS-Co and Ds-Mn) activity during anthocyanin synthesis in suspension culture of Fragaria ananassa . Plant Cell Tissue Organ Cult. 2000; 62 135-9
- 9 Bolta Z, Baricevic D, Bohanec B, Andrensek S. A preliminary investigation of ursolic acid in cell suspension culture of Salvia officinalis . Plant Cell Tissue Organ Cult. 2000; 62 57-63
- 10 Yen H E, Chen Y C, Yen S K, Lin J H. Sugar uptake by photomixotrophic soybean suspension cultures. Bot Bull Acad Sin. 1999; 40 147-52
- 11 Bhadra R, Morgan J A, Shanks J V. Transient studies of light-adapted cultures of hairy roots of Catharanthus roseus: growth and indole alkaloid accumulation. Biotechnol Bioeng. 1998; 60 670-8
- 12 Flores H E, Dai Y, Cuello J L, Maldonado M IE, Loyola V V. Green roots: photosynthesis and photoatutrophy in an underground plant organ. Plant Physiol. 1993; 101 363-71
- 13 Toivonen L, Balsevich J, Kurz W GW. Indole alkaloid production by hairy root cultures of Catharanthus roseus . Plant Cell Tissue Organ Cult. 1989; 18 79-93
Ma. Luisa Villarreal
Centro de Investigación en Biotecnología
Universidad Autónoma del Estado de Morelos
Cuernavaca 62210
Morelos
México
Phone: /Fax: +52-777-329-7057
Email: luisav@cib.uaem.mx