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2012 | 34 | 6 |
Tytuł artykułu

Hairy root cultures of Rehmannia glutinosa and production of iridoid and phenylethanoid glycosides

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Hairy root lines through the infection of Agrobacterium rhizogenes strain (A4) were established from shoot tips and leaves of Rehmannia glutinosa Libosch. Ten lines of hairy roots were selected on the basis of biomass increase in half-strength Gamborg medium (½ B5). Transgenic status of the roots was confirmed by polymerase chain reaction using rolB and rolC specific primers. Iridoid glycosides (catalposide, loganin, aucubin and catalpol) and phenylethanoid glycosides (verbascoside and isoverbascoside) identified using HPLC–ESI–MS, and their contents were compared with untransformed root culture and roots of 1-year-old field-grown plants of R. glutinosa by RP-HPLC. The growth and production of secondary metabolites in ten hairy root lines varied considerably as to the media. Woody plant (WP) medium displayed higher growth in terms of fresh (FW) and dry weights (DW) compared to ½ B5 medium. High-yielding hairy root lines produced higher amounts of loganin, catalposide, verbascoside and isoverbascoside in comparison to the untransformed root culture and roots of 1-year-old field-grown plants. The highest amounts of catalposide and loganin in transformed roots were 4.45 mg g⁻¹ DW (RS-2 hairy root line) and 4.66 mg g⁻¹ DW (RS-1 hairy root line), respectively. Aucubin and catalpol were detected in some lines in trace amounts. The highest amounts of verbascoside (16.9 mg g⁻¹ DW) and isoverbascoside (3.46 mg g⁻¹ DW) were achieved in RS-2 root line. The contents of catalposide, verbascoside and isoverbascoside in high-producing lines were several times higher than in untransformed root culture and roots of R. glutinosa plants grown in soil. Loganin and aucubin could not be detected in roots of fieldgrown plants. However, the levels of catalpol were much lower in the in vitro roots.
Słowa kluczowe
Wydawca
-
Rocznik
Tom
34
Numer
6
Opis fizyczny
p.2215-2224,fig.,ref.
Twórcy
autor
  • Department of Biology and Pharmaceutical Botany, Medical University of Lodz, 1 Muszynskiego St., 90-151 Lodz, Poland
autor
  • Laboratory of Plant Protection and Biotechnology, Department of Biotechnology, Intercollegiate Faculty of Biotechnology, University of Gdansk and Medical University of Gdansk, 24 Kladki St., 80-822 Gdansk, Poland
autor
  • Department of Plant Physiology and Biochemistry, University of Lodz, Banacha 12/16, 90-237 Lodz, Poland
  • Department of Biology and Pharmaceutical Botany, Medical University of Lodz, 1 Muszynskiego St., 90-151 Lodz, Poland
Bibliografia
  • An SJ, Pae HO, Oh GS, Choi BM, Jeong S, Jang SI, Oh H, Kwon TO, Song CE, Chung HT (2002) Inhibition of TNF-alfa, IL-1beta and Il-6 productions and NF-kappaB activation in lipopolysaccharide-activated RAW 264.7 macrophages by catalposide, an iridoid glycoside isolated from Catalpa ovata G. Don (Bignoniaceae). Int Immunopharmacol 2:1173–1181
  • Anh NTH, Sung TV, Fronke K, Wessjohann LA (2003) Phytochemical studies of Rehmannia glutinosa rhizomes. Pharmazie 58:593–595
  • Batra J, Dutta A, Singh D, Kumar S, Sen J (2004) Growth and terpenoid indol alkaloid production in Catharanthus roseus hairy root clones in relation to left and right-termini-linked Ri T-DNA gene integration. Plant Cell Rep 23:148–154
  • Bekesiova I, Nap J, Mlynarova L (1999) Isolation of high quality DNA and RNA from leaves of the carnivorous plant Drosera rotundifolia. Plant Mol Biol Rep 17:269–277
  • Bohomme V, Laurain-Mattar D, Lacoux J, Fliniaux MA, Jacquin A (2000a) Tropane alkaloid production by hairy roots of Atropa belladonna obtained after transformation with Agrobacterium rhizogenes ATCC15834 and Agrobacterium tumefaciens containing rol A, B, C genes only. J Biotechnol 81:151–158
  • Bohomme V, Laurain-Mattar D, Fliniaux MA (2000b) The effect of rol C gene on hairy root induction, development and tropane alkaloid production by Atropa belladonna. J Nat Prod 63:1249–1252
  • Chander R, Kapoor NK, Dhawan BN (1992) Picroliv, piroliv, picroside-I and kutkoside from Picrorhiza kurrooa scavengers of superoxide anions. Biochem Pharmacol 44:180–183
  • Chen H, Hao HR, Xiong J, Qi XH, Zhang C (2007) Effects of successive cropping Rehmannia glutinosa Libosch. on rhizosphere soil microbial flora and enzyme activities. Chin J Appl Ecol 18:2755–2759
  • Dhakulkar S, Ganapathi TR, Bhargava S, Bapat VA (2005) Induction of hairy roots in Gmelina arborea Roxb and production of verbascoside in hairy roots. Plant Sci 169:812–818
  • Funez L, Fernández-Arroyo S, Laporta O, Pons A, Roche E, Segura- Carretero A, Fernández-Gutiérrez A, Micol V (2009) Correlation between plasma antioxidant capacity and verbascoside levels in rats after oral administration of lemon verbena extract. Food Chem 117:589–598
  • Gamborg OL, Miller RA, Ojima K (1968) Nutrient requirements of suspension cultures of soybean root cells. Exp Cell Res 50:1551–1558
  • Gomez-Aguirre YA, Zamilpa A, Gonzalez-Cortazar M, Trejo-Tapia G (2012) Adventitious root culture of Castilleja tenuiflora Benth. as a source of phenylethanoid glycosides. Ind Crop Prod 36:188–195
  • Grąbkowska R, Królicka A, Mielicki W, Wielanek M, Wysokińska H (2010) Genetic transformation of Harpagophytum procumbens by Agrobacterium rhizogenes: iridoid and phenylethanoid glycosides accumulation in hairy root cultures. Acta Physiol Plant 32:655–673
  • Hu ZB, Du M (2006) Hairy root and its application in plant genetic engineering. JIPB 48:121–127
  • Huang KCh (1998) The pharmacology of Chinese herbs, 2nd edn. CRC press LLC Boca Raton London, New York, pp 375–376
  • Hwang SJ (2005) Growth characteristics and catalpol production in Chinese foxglove (Rehmannia glutinosa Libosch.) hairy roots transformed with Agrobacterium rhizogenes ATCC15834. J Plant Biol 48:380–386
  • Hwang SJ (2009) Catalpol production in Chinese foxglove (Rehmannia glutinosa Libosch.) hairy roots transformed with Agrobacterium rhizogenes ATCC15834. Methods Mol Biol 547:263–273
  • Inouye H (1971) Biosynthesis of iridoid and secoiridoid glycosides. In: Wagner H, Hőrhammer L (eds) Pharmacognosy and phytochemistry. Springer, Berlin, pp 290–313
  • Kapadia GJ, Sharma SC, Tokuda H, Nishino H, Ueda S (1996) Inhibitory effect of iridoids on Epstein-Barr virus activation by a short-term in vitro assay for anti-tumor promoters. Cancer Lett 102:223–226
  • Kim JJA, Kim YS, Choi YE (2011) Triterpenoid production and phenotypic changes in hairy roots of Codonopsis lanceolata and the plants regenerated from them. Plant Biotechnol Rep 5:255–263
  • Kitagawa I, Nishimura T, Furubayashi A, Yosioka I (1971) On the constituents of rhizome of Rehmannia glutinosa Libosch. Forma hueihungensis Hsiao. Yakugaku Zasshi 9:593–596
  • Konoshima T, Takasaki M, Tokuda H, Nishino H (2000) Cancer chemopreventive activity of an iridoid glycosides, 8-acetylharpagide, from Ajuga decumbens. Cancer Lett 157:87–92
  • Królicka A, Staniszewska I, Bielawski K, Maliński E, Szafranek J, Łojkowska E (2001) Establishment of hairy root cultures of Ammi majus. Plant Sci 160:259–264
  • Kuźma Ł, Bruchajzer E, Wysokińska H (2009) Methyl jasmonate effect on diterpenoid accumulation in Salvia sclarea hairy root culture in shake flaks and sprinkle bioreactor. Enzyme Microbial Tech 44:406–410
  • Kwak JH, Kim HJ, Ho Lee KH, Kang SC, Pyo Zee OP (2009) Antioxidative iridoid glycosides and phenolic compounds from Veronica peregrina. Arch Pharm Res 32:207–213
  • Lisowska K, Wysokińska H (2000) In vitro propagation of Catalpa ovata G. Don. Plant Cell Tissue Organ Cult 60:171–176
  • Lloyd G, McCown B (1980) Commercially-feasible micropropagation of mountain laurel Kalmia latifolia by use of shoot-tip culture. Int Plant Propag Soc 30:421–427
  • Matsumoto M, Shoyama Y, Nishioka I, Irinoa N (1989) Constituents of regenerated and shoot cultured root tissue of Rehmannia glutinosa. Phytochemistry 28:2331–2332
  • Merkli A, Christen P, Kapetanidis I (1997) Production of diosgenin by hairy root cultures of Trigonella foenum-graecum L. Plant Cell Rep 16:632–636
  • Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue culture. Physiol Plant 15:473–497
  • Park SU, Park NI, Kim YK, Suh SY, Eom SH, Lee SY (2009) Application of plant biotechnology in the medicinal plant, Rehmannia glutinosa Liboschitz. J Med Plant Res 3:1258–1263
  • Rosić N, Momčilović I, Kovačević N, Grubišić D (2006) Genetic transformation of Rhamnus fallax and hairy roots as a source of anthraquinones. Biol Plant 50:514–518
  • Sambrook J, Russel DW (2001) Molecular cloning: a laboratory manual. Cold Spring Harbor Laboratory Press, New York
  • Sasaki H, Nishimura H, Chin M, Chen Z, Mitsuhashi H (1989) Chemical and biological studies on Rehmanniae radix. Part 2. Hydroxycinnamic acid esters and phenethyl alcohol glycosides from Rehmannia glutinosa var R. purpurea. Phytochemistry 28:875–879
  • Sesterhenn K, Distl M, Wink M (2007) Occurrence of iridoid glycosides in in vitro cultures and intact plants of Scrophularia nodosa L. Plant Cell Rep 26:365–371
  • Sidwa-Gorycka M, Królicka A, Orlita A, Maliński E, Gołe˛biowski M, Kumirska J, Chromik A, Biskup E, Ste˛pnowski P, Łojkowska E (2009) Genetic transformation of Ruta graveolens L. by Agrobacterium rhizogenes: hairy root cultures a promising approach for production of coumarins and furanocoumarins. Plant Cell Tissue Organ Cult 97:59–69
  • Stojakowska A, Malarz J, Szewczyk A, Kisiel W (2012) Caffeic acid derivatives from a hairy root culture of Lactuca virosa. Acta Physiol Plant 34:291–298
  • Tomoda M, Tanaka M, Kondo N (1971) Water-soluble constituents of Rehmanniae radix. II. On the constituents of roots of Rehmannia glutinosa var. purpurea. Chem Pharm Bull 19:2411–2416
  • Vervliet G, Holsters M, Teuchy H, van Montagu M, Schell J (1975) Characterization of different plague-forming and defective temperate phages in Agrobacterium strains. J Gen Virol 26:33–48
  • Wang T, Gui M, Liu H, Zhao H, Xu L, Zha M, Li J (2010) Secretion of catalpol from Rehmannia glutinosa roots to the rhizosphere. Acta Physiol Plant 32:141–144
  • Ye J, Zhang X, Dai W, Yan S, Huang H, Liang X, Li Y, Zhang W (2009) Chemical fingerprinting of Liuwei Dihuang Pill and simultaneous determination of its major bioactive constituents by HPLC coupled with multiple detections of DAD, ELSD and ESI-MS. J Pharm Biomed Anal 49:638–645
  • Zhang GJ, Ji JY, Liu Q, Zhang LH, Gong GY, Jin ZX, Ren SZ (1993) Collected edition of identification and assessment of common TCD. Heilongjiang Science and Technique Press, Harbin, pp 301–302
  • Zhang RX, Li MX, Jia ZP (2008) Rehmannia glutinosa: review of botany, chemistry and pharmacology. J Ethnopharm 117:199–214
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