Pluronic F-68: an answer for shoot regeneration recalcitrance in microspore-derived Brassica napus embryos

Alakhova D. Y.; Rapoport N. Y.; Batrakova E. V.; Timoshin A. A.; Li S.; Nicholls D.; Alakhov V. Y.; Kabanov A. V. Differential metabolic responses to pluronic in MDR and non-MDR cells: a novel pathway for chemosensitization of drug resistant cancers. J Control Release 142: 89–100; 2010. Anthony P.; Jelodar N. B.; Lowe K. C.; Power J. B.; Davey M. R. Pluronic F-68 increases the post-thaw growth of cryopreserved plant cells. Cryobiology 33(5): 508–514; 1996. Anthony P.; Lowe K. C.; Davey M. R.; Power J. B. Strategies for promoting division of cultured plant protoplast: synergistic effects of haemoglobin (Erythrogen) and Pluronic F-68. Plant Cell Rep 17: 13–16; 1997. Baillie A. M. R.; Epp D. J.; Hutcheson D.; Keller W. A. In vitro culture of isolated microspores and regeneration of plants in Brassica campestris. Plant Cell Rep 11: 234–237; 1992. Batrakova E. V.; Kabanov A. V. Pluronic block copolymers: evolution of drug delivery concept from inert nanocarriers to biological response modifiers. J Control Release 130(2): 98–106; 2008. Batrakova E. V.; Li S.; Alakhov V. Y.; Elmquist W. F.; Miller D. W.; Kabanov A. V. Sensitization of cells overexpressing proteins by Pluronic P85. Pharm Res 20(10): 1581–1590; 2003. Batrakova E. V.; Li S.; Li Y.; Vinogradov S. V.; Alakhov V. Y.; Kabanov A. V. Effects of Pluronic P85 on ATPase activity of drug efflux transporters. Pharm Res 21(12): 2226–2233; 2004a. Batrakova E. V.; Zhang Y.; Li Y.; Li S.; Vinogradov S. V.; Persidsky Y.; Alakhov V. Y.; Miller D. W.; Kabanov A. V. Effects of Pluronic P85 on GLUT1 and MCT1 transporters in the blood–brain barrier. Pharm Res 21(11): 1993–2000; 2004b. Belmonte M. F.; Ambrose S. J.; Ross A. R. S.; Abrams S.; Stasolla C. Improved development of microspore-derived embryo cultures of B. napus cv Topas following changes in glutathione metabolism. Physiol Plant 127: 690–700; 2006. Belmonte M. F.; Donald G.; Reid D. M.; Yeung E. C.; Stasolla C. Alterations of the glutathione redox state improve apical meristem structure and somatic embryo quality in white spruce (Picea glauca). J Exp Bot 56: 2355–2364; 2005. Belmonte M. F.; Yeung E. C. The effects of reduced and oxidized glutathione on white spruce somatic embryogenesis. In Vitro Cell Dev Biol Plant 40: 61–66; 2004. Burnett L.; Arnoldo M.; Yarrow S.; Huang B. Enhancement of shoot regeneration from cotyledon explants of Brassica rapa ssp. oleifera through pretreatment with auxin and cytokinin and use of ethylene inhibitors. Plant Cell Tissue Organ Cult 37: 253–256; 1994. Cancino G. O.; Gill M. I. S.; Anthony P.; Davey M. R.; Power J. B.; Lowe K. C. Pluronic F-68 enhanced shoot regeneration in a potencially novel citrus rootstock. Art Cells Blood Subs Immob Biotech 29(4): 317–324; 2001. Cawrse N. W.; de Pomerai D. I.; Lowe K. C. Effects of Pluronic F-68 on 2-deoxyglucose uptake and amino acid incorporation into chick embryonic fibroblasts in vitro. Biomed Sci 2: 180–182; 1991. Cegielska-Taras T.; Tykarska T.; Szała L.; Kuraś M.; Krzymań J. Direct plant development from microspore-derived embryos of winter oilseed rape Brassica napus L. ssp. oleifera (DC.) Metzger. Euphytica 124: 341–347; 2002. Chi G. L.; Pua E. C.; Goh C. J. Role of ethylene on de novo shoot regeneration from cotyledonary explants of Brassica campestris ssp. pekinensis (Lour) Olsson in vitro. Plant Physiol 96: 178–183; 1991. Da Silva Dias J. C. Effect of activated charcoal on Brassica oleracea microspore culture embryogenesis. Euphytica 108: 65–69; 1999. Damgaard O.; Jensen H. L.; Rasmussen O. S. Agrobacterium tumefaciens-mediated transformation of Brassica napus winter cultivars. Transgenic Res 6: 279–288; 1997. Evans D. E.; Singh M. B.; Knox R. B. Pollen development and application in biotechnology. In: Blackmore S.; Knox R. B. (eds) Microspores: evolution and ontogeny. California, Academic Press, pp 309–338; 1990. Ferrie A. M. R.; Caswell K. L. Isolated microspore culture techniques and recent progress for haploid and doubled haploid plant production. Plant Cell Tissue Organ Cult; 2010. doi:10.1007/s11240-010-9800-y. Gamborg O. L.; Miller R. A.; Ojima K. Nutrient requirements of suspension cultures of soybean root cells. Exp Cell Res 50: 155–158; 1968. Gigout A.; Buschmann M. D.; Mario Jolicoeur M. The fate of fluronic F-68 in chondrocytes and CHO Cells. Biotechnol Bioeng 100: 975–987; 2008. Gill M. I. S.; Cancino G. O.; Davey P.; Power J. B.; Lowe K. C. Pluronic F-68 enhanced shoot regeneration in micropropagated Citrus rootstock and Passiflora species. Acta Biotechnol 23(4): 349–358; 2003. Goldblum S.; Bae Y. K.; Hink W. F.; Chalmers J. J. Protective effect of methylcellulose and other polymers on insect cells subjected to laminar shear stress. Biotechnol Prog 6: 383–390; 1990. Hansen N. J. P.; Andersen S. B. In vitro chromosome doubling potential of colchicines, oryzalin, trifluralin and AMP in Brassica napus microspore culture. Euphytica 88: 159–164; 1996. Huang B.; Bird S.; Kemble R.; Simmonds D.; Keller W. A.; Miki B. Effects of culture density, conditioned medium and feeder cultures on microspore embryogenesis in Brassica napus L. c.v. Topas. Plant Cell Rep 8: 594–597; 1990. Huang J.; Si L.; Jiang L.; Fan Z.; Qiu J.; Li G. Effect of pluronic F68 block copolymer on P-glycoprotein transport and CYP3A4 metabolism. Int J Pharm 356: 351–353; 2008. Iordan-Costache M.; Lowe K. C.; Davey M. R.; Power J. B. Improved micropropagation of Populus spp. by Pluronic F-68. Plant Growth Regul 17: 233–239; 1995. Kaparakis G.; Alderson P. G. Enhancement of in vitro cell proliferation of pepper (Capsicum annuum L.) by Pluronic F-68, haemoglobin and arabinogalactan proteins. J Hortic Sci Biotechnol 78(5): 647–649; 2003. Khatun A.; Naher Z.; Mahboob S.; Saha C. K.; Bilkis S. An efficient protocol for plant regeneration from the cotyledons of kenaf (Hibiscus cannabinus L.). Biotechnology 2(2): 86–93; 2003. Khehra G. S.; Matias R. J. The interaction of genotype, explant and media on the regeneration of shoots from complex explants of Brassica napus L. J Exp Bot 43: 1413–1418; 1992. Khehra M.; Lowe K. C.; Davey M. R.; Power J. B. An improved micropropagation system for chrysanthemum based on Pluronic F-68-supplemented media. Plant Cell Tissue Organ Cult 41: 87–90; 1995. Kong L.; Yeung E. C. Development of white spruce somatic embryos: II. Continual shoot meristem development during germination. In Vitro Cell Dev Biol Plant 28: 125–131; 1992. Kong L.; Yeung E. C. Effects of ethylene and ethylene inhibitors on white spruce somatic embryo maturation. Plant Sci 104: 71–80; 1994. Kumar V.; Laouar M. R.; Davey B. J.; Mulligan B. J.; Lowe K. C. Pluronic F-68 stimulates growth of Solanum dulcamara in culture. J Exp Bot 43(249): 487–493; 1992. Lee S. Y.; Kim D. I. Stimulation of murine granulocite macrophage-colony stimulation factor production by Pluronic F-68 and polyethylene glycol in transgenic Nicotiana tabacum cell culture. Biotechnol Lett 24: 1779–1783; 2002. Lichter R. Induction of haploid plants from isolated pollen of Brassica napus. Z Pflanzenphysiol 105: 427–434; 1982. Lowe K. C.; Anthony P.; Davey M. R.; Power J. B.; Washington C. Enhanced protoplast growth at the interface between oxygenated fluorocarbon liquid and aqueous culture medium supplemented with Pluronic F-68. Art Cells Blood Subs Immob Biotech 23(3): 417–422; 1995. Lowe K. C.; Davey M. R.; Power J. B.; Mulligan B. J. Surfactant supplements in plant culture system. Agto Food Ind Hi Tech 4: 9–13; 1993. Michaels J. D.; Petersen J. F.; McIntire L. V.; Papoutsakis E. T. Protection mechanism of freely suspended cells (CRL 8018) from fluid-mechanical injury. Viscometer and bioreactor studies using serum, Pluronic F68 and polyethylene glycol. Biotechnol Bioeng 38: 169–180; 1991. Murhammer D. W.; Goochee C. F. Scale up of insect cell cultures: protective effects of Pluronic F-68. Biotechnology 6: 1411–1418; 1988. Payne R. W.; Harding S. A.; Murray D. A.; Soutar D. M.; Baird D. B.; Ai G.; Channing I. C.; Welham S. J.; Gilmour A. R.; Thompson R.; Webster R. The Guide to GenStat Release 11, Part 2: Statistics. VSN International, Hemel Hempstead; 2008. Stasolla C. Glutathione redox regulation of in vitro embryogenesis. Plant Physiol Biochem 48: 319–327; 2010. Stasolla C.; Belmonte M. F.; Tahir M.; Elhiti M.; Joosen R.; Maliepaard C.; Sharpe A.; Boutilier K. Buthionine sulfoximine (BSO)-mediated improvement in in vitro cultured embryo quality is associated with major changes in transcripts involved with ascorbate metabolism, meristem development and embryo maturation. Planta 228: 255–272; 2008. Sowana D. D.; Williams D. R. G.; O’Neil B. K.; Dunlop E. H. Studies of the shear protective effects of Pluronic F-68 on wild carrot cell cultures. Biochem Eng J 12: 165–173; 2002. Ulrich A.; Furtan W. H.; Downey R. K. Biotechnology and rapeseed breeding: some economic considerations. Science Council of Canada Report, Ottawa; 1984. Wardrop J.; Lowe K. C.; Power J. B.; Davey M. R. Perfluorochemicals and plant biotechnology: An improved protocol for protoplast culture and plant regeneration in rice (Oryza sativa L.). J Biotechnol 50: 47–54; 1996. Wong R. S. C.; Zee S. Y.; Swanston E. B. Isolated microspore culture of Chinese flowering cabbage (Brassica campestris ssp parachinensis). Plant Cell Rep 15: 396–400; 1996.