The effect of Pluronic F-68 on hybridoma cells in continuous culture

Summary The comparative effects of Pluronic on cell growth of hybridomas were studied. The addition of 0.05% Pluronic decreased the steady-state cell number in continuous culture by about 12% compared to a non-supplemented culture. In short-term experiments, results demonstrated a gradual decrease in cell number with increasing concentration of Pluronic. Such growth inhibition was found to be a result of lowering the rate of DNA synthesis. Offprint requests to: M. Al-Rubeai     

The fate of Pluronic F-68 in chondrocytes and CHO cells

The surfactant Pluronic F-68 (PF-68) is widely used in large-scale mammalian cell culture to protect cells from shear stress that arises from agitation and gas sparging. Several studies suggested that PF-68 is incorporated into the cell plasma membrane and could enter the cells, but without providing any direct evidence. The current study has examined this question for two cell types, one of pharmaceutical interest (CHO cells) and the other of biomedical interest (chondrocytes or cartilage cells). A fluorescent derivative of PF-68 was synthesized to detect and localize internalized Pluronic with culture time. PF-68 uptake by the cells was quantified and characterized. We clearly demonstrate that PF-68 enters the cells, and possibly accumulates in the endocytic pathway. CHO cells showed an average uptake of 11.7 +/- 6.7 (SEM) microg PF-68/10(6) cells while the uptake of chondrocytes was 56.0 +/- 10.9 (SEM) microg PF-68/10(6) cells, independently of the initial PF-68 concentration (between 0.01 and 0.2%, w/v) and of cell concentration (from 1 x 10(6) to 4 x 10(6) cells/mL). These uptake values were identical for both static and agitated culture conditions. Finally, we found that CHO cells are able to eliminate intracellular fluorescent PF-68 but chondrocytes are not. These results show that the uptake of PF-68 by the cells can severely affect PF-68 concentration in the culture medium and thus shear protection effect.     

Effect of Pluronic F-68 on the mechanical properties of mammalian cells

The mechanical properties of TB/C3 hybridoma cells taken from a continuous culture were measured by micromanipulation. The culture conditions were constant except for the presence or absence of Pluronic F-68 in the medium. It was found that the mean bursting membrane tension and the mean elastic area compressibility modulus of the cells were significantly greater (60% and 120%, respectively) in a medium with 0.05% (w/u) Pluronic F-68 compared to that without Pluronic. Pluronic F-68 therefore affected the strength of the membranes when the cells were exposed to it for a long period of time, i.e., in culture. The short-term effect of Pluronic F-68 on cell strength was also tested by its addition at various levels up to 0.2% (w/v) immediately before the mechanical property measurements. The resulting cell strength depended on the Pluronic concentration, but a significant short-term effect could only be detected above a threshold of 0.1% (w/v). Previous reports on the effect of Pluronic F-68 on animal cell culture are evaluated in the light of these observations.     

Effects of Pluronic F-68 on growth of transformed roots ofSolanum dulcamara

Summary The effects of the non-ionic surfactant, Pluronic F-68, on the growth of transformed roots ofSolanum dulcamara L. have been studied. Growth was stimulated by addition of low concentrations (0.001–0.1% w/v) of freshly-prepared commercial grade Pluronic to liquid culture medium, with maximum increases in root fresh and dry weights at 0.01% (w/v). In contrast, higher concentrations (0.25–1.00% w/v) of freshly-prepared Pluronic inhibited growth. Freshly-prepared purified Pluronic retarded root growth, even at concentrations that were stimulatory with the commercial preparation. Similarly, commercial grade Pluronic solutions stored at 4°C or 22°C for 5 days (aged) were inhibitory to root growth.     

Effects of Pluronic F-68 on larval development of the hookworm,Necator americanus

Summary Eggs of the nematode,Necator americanus, were incubated at 28°C for up to 120h in medium (prepared from mouse faeces) supplemented with 0.4% (w/v) or 5% of either commercial grade or a silica-Amberlite purified fraction of the non-ionic surfactant, Pluronic F-68. Exposure to commercial grade or purified Pluronic at both concentrations delayed egg hatching. However, subsequent larval growth, as assessed by length of larva, buccal capsule, oesophagus and tail, was significantly (P<0.05) increased (maximally following exposure to 5.0% of the purified fraction). No further development occurred in larvae exposed to other Pluronic fractions tested after 48h, irrespective of concentration. These results suggest that Pluronic may be a valuable supplement in media used for the axenic culture of nematode larvae.     

Pluronic F-68 Stimulates Growth of Solanum dulcamara in Culture

The effects have been studied of the non-ionic surfactant, PluronicF-68, on the growth of transformed roots, callus and protoplastsof Solanum dulcamara L. Root growth was stimulated by additionof 0001–005% (w/v) of freshly-prepared, commercial gradePluronic to culture medium, with maximum increases in root freshand dry weights at 001%. Higher concentrations (05–10%w/v) of freshly-prepared Pluronic inhibited growth. A Pluronicfraction, prepared by passage through silica-Amberlite resin,retarded root growth even at concentrations that were stimulatorywith the commercial preparation. Similarly, commercial gradePluronic solutions stored at 4C or 22C for 5 d (‘aged’)also inhibited root growth. Roots grew faster on Pluronic F-68-treatedmembrane rafts compared with growth on commercially-availablerafts; such growth enhancement was comparable to that seen inmedium supplemented with 001% (w/v) freshly-prepared commercialPluronic. Callus growth was also stimulated by the addition of freshly-prepared,commercial grade Pluronic F-68 to medium, with maximum increasesat 01% (w/v); in contrast, 10% (w/v) Pluronic was inhibitoryto callus growth. The mean plating efficiency (15 d after plating)of protoplasts cultured at densities of 01–2010⁵ cm_–3was increased up to 26% by 01% (w/v) Pluronic, while 10% wasinhibitory. Both root and callus soluble carbohydrates and proteinswere increased by exposure to freshly-prepared, commercial Pluronic.Similarly, the specific activities of malate dehydrogenase andacid phosphatase were increased in Pluronic F-68-treated callusand roots. The biotechnological implications of these resultsare discussed in relation to the potential value of non-ionicsurfactants as growth-stimulating additives to plant culturemedia. Key words: Solanum dulcamara, Pluronic F-68, surfactant, transformed roots, callus, protoplasts, malate dehydrogenase, acid phosphatase     

Effects of Pluronic F-68 on callus growth and protoplast plating efficiency of Solanum dulcamara

Summary The effects of the non-ionic surfactant, Pluronic F-68, on the growth of callus and protoplasts from Solanum dulcamara L. have been studied. Growth of callus was stimulated by addition of 0.1% (w/v) commercial grade Pluronic to culture medium, whereas lower concentrations (0.01% w/v) had no corresponding effect. In contrast, higher concentrations (1.0% w/v) of Pluronic inhibited callus growth. The mean plating efficiency of protoplasts grown at different densities (15 days after plating) was increased up to 26% following culture with 0.1% (w/v) Pluronic, while 0.01% (w/v) Pluronic was ineffective. Mean protoplast plating efficiency decreased by up to 32% following culture with 1.0% (w/v) Pluronic.     

Improved micropropagation of Populus spp. by Pluronic F-68

Stem explants and leaves (without petioles) excised from axenic shoots of Populus tremula cv. Ahle or P. tremula × tremuloides cv. Münden were cultured in the presence of the non-ionic, co-polymer surfactant, Pluronic F-68. Stem explants developed shoots within 10 d of culture and significant (p<0.05), but genotype-dependent, increases in total shoot fresh weight (maximum 2 × control) occurred in cultures supplemented with 0.001–0.1% Pluronic F-68 over a 72 d period. Similarly, increases in both fresh weight (up to 10-fold) and number of shoots per P. tremula × tremuloides leaf explant (5-fold maximum) over 60 d occurred with Pluronic F-68 at 0.001%.Abbreviations BAP 6-benzylamino purine - IBA indolebutyric acid - MS0 Murashige and Skoog medium [14] lacking growth regulators - NAA -naphthaleneacetic acid - WPM woody plant medium     

Effects of Pluronic F-68 on shoot regeneration from cultured jute cotyledons and on growth of transformed roots

The effects have been studied of the non-ionic surfactant, Pluronic F-68, on the growth in culture of jute (Corchorus capsularis L.) cotyledons with attached petioles, cotyledon explants and transformed roots. Supplementation of culture medium with 0.001–0.5% (w/v) of either commercial grade Pluronic F-68 or a purified fraction prepared by passage through silica gel, stimulated shoot production from the petioles of C. capsularis var. D154 and C134 cotyledons. This effect was most marked in C134, because of the failure of control cotyledons to produce shoots in the absence of Pluronic. Plants regenerated from Pluronic-treated cotyledons were morphologically normal. Growth of transformed roots of C. capsularis var. D154 was stimulated in medium supplemented with commercial grade or purified Pluronic F-68, with maximum increases in both fresh and dry weights with 0.1% (w/v) of the surfactant. Roots cultured in the presence of Pluronic F-68 could be maintained without sub-culture for up to 70 days, whereas roots cultured in the absence of Pluronic required subculture every 7 days, to prevent necrosis. Transformed roots also produced callus in the presence of 0.001–1.0% (w/v) of either commercial grade or purified Pluronic. The biotechnological implications of these results are discussed in relation to the potential value of non-ionic surfactants as growth-stimulating additives to plant culture media.Abbreviations NAA -naphthaleneacetic acid - BA 6-benzyladenine - IAA indole-3-acetic acid - MS Murashige & Skoog (1962)     

Effects of Pluronic F-68 on Tetrahymena cells: protection against chemical and physical stress and prolongation of survival under toxic conditions

The effects of the non-ionic surfactant Pluronic F-68 (0.01% w/v) on Tetrahymena cells have been studied. A marked protection against chemical and physical stress was observed. The chemical stress effects were studied in cells suspended in buffer (starvation) or in buffers with added ingredients from a chemically defined medium (Ca2+, Mg2+, Na+, K+, trace metal ions). The physical stress was due to mechanical stress or hyperthermia. The data show that Pluronic: (a) prolongs the survival of low concentration cell suspensions during starvation; (b) prevents the cell death caused by low concentrations of Ca2+ (70 microM); (c) prolongs the survival of cells exposed to higher ion concentrations (10 mM Ca2+, or Na+ or K+); (d) postpones the death caused by trace metal ions like Zn2+, Fe3+ and, Cu2+; (e) protects cells from the death caused by shearing forces; and (f) prolongs the survival of cells exposed to hyperthermia (43 degrees C). The cellular survival is increased at reduced temperatures (e.g. 4 degrees C instead of 36 degrees C) and at increased cellular concentrations (e.g. 100 cells ml(-1) instead of 25 or 10 cells ml(-1)). There is no effect of pre-incubation with Pluronic. The protective effect of Pluronic towards Tetrahymena is observed for concentrations in the range from 0.001 to 0.1% w/v.     

An improved micropropagation system for Chrysanthemum based on Pluronic F-68-supplemented media

Supplementation of MS-based medium containing 4.4 M 6-benzyladenine and 2.7 M -naphthaleneacetic acid with 0.001–0.1% (w/v) of the non-ionic, co-polymer surfactant, Pluronic F-68, significantly (p<0.05) increased the mean fresh weight gain of cultured leaf explants of chrysanthemum (Dendranthema grandiflora) Tone Maid and Early Charm by a maximum of 74% and 34%, respectively. The percentage of individual explants giving adventive shoots was also stimulated by Pluronic F-68; for cv. Early Charm, 0.001% (w/v) Pluronic F-68 induced the maximum response, whereas for cv. Tone Maid, the maximum response occurred with 0.01% surfactant. Shoot regeneration from explants was also enhanced at these concentrations of surfactant, compared to explants cultured in the absence of Pluronic F-68.Abbreviations BA 6-benzyladenine - MS Murashige & Skoog 1962 - NAA -naphthaleneacetic acid     

Synergistic enhancement of protoplast growth by oxygenated perfluorocarbon and Pluronic F-68

Summary Cell suspension-derived protoplasts of albino Petunia hybrida were grown for 10 d at the interface between aqueous culture medium (KM8P) and an oxygenated (10 mbar for 15 min) perfluorocarbon liquid, perfluorodecalin. Protoplasts synthesised new cell walls and divided normally at the perfluorodecalin/culture medium interface, with a mean viability after 10 d of > 92.0%. The mean plating efficiency of protoplasts was elevated by 37% (P<0.05) following culture at the perfluorodecalin/medium interface, but was unaltered by perfluorodecalin or oxygen separately. The mean plating efficiency of protoplasts cultured at the interface was further increased to a maximium of 52% above control, in the presence of oxygenated perfluorodecalin and KM8P medium supplemented with the non-ionic, co-polymer surfactant, Pluronic F-68 at 0.01% (w/v). These findings demonstrate the effectiveness of oxygenated perfluorodecalin for promoting protoplast growth, by facilitating oxygen delivery. The finding that Pluronic F-68 further increased the plating efficiency of protoplasts cultured at the perfluorocarbon/aqueous interface suggests that these agents improve growth through separate, but cumulative, mechanisms.Abbreviations ATP adenosine triphosphate - PFCs perfluorochemicals - STP standard temperature and pressure     

In vitro cellular responses to a non-ionic surfactant,Pluronic F-68

Summary The effects of a non-ionic surfactant, Pluronic F-68, on growth of chick embryonic fibroblasts and hamster melanoma cellsin vitro have been studied. Low concentrations (0.05–0.1% w/v) of commercial grade Pluronic stimulated growth of both cell types whereas low concentrations of purified Pluronic inhibited fibroblast growth but strongly stimulated growth of melanoma cells. These observations suggest that Pluronic may have value for regulating growth of cell cultures.     

Thiamine requirements of various plant cells in suspension culture

The thiamine requirements of cells of several plant speciesin suspension culture were investigated. Omission of thiaminefrom the medium leads to a rapid and complete cessation of growthin subcultures of soybean, tobacco and rice cells. The criticallevels of thiamine content in these cells are considered tobe in the vicinity of 0.6, 0.5 and 0.2 µg per g dry weight,respectively. Soybean cells can grow satisfactorily when suppliedwith an equimolar mixture of two thiamine precursors, pyrimidineand thiazole moieties. Neither moiety alone can substitute forthiamine. On the other hand, Rula and peanut cells can be successfullysubcultured for ten passages in the absence of externally suppliedthiamine. When grown without thiamine, Rula cells had an averagethiamine content of 0.5-0.6 µg in darkness and 3.5 µgper g dry weight in the light. The relationship between thethiamine requirement and the degree of dedifferentiation incultured cells is discussed. ¹ Present address: Section of Phytochemical Research, Researchand Development Division, Eisai Co., Ltd., Kawashima, Gifu 112,Japan. (Received December 24, 1975; )     

Stimulation of murine granulocyte macrophage-colony stimulating factor production by Pluronic F-68 and polyethylene glycol in transgenic Nicotiana tabacum cell culture

Pluronic F-68, PEG 8000, or PEG 20 000 added to cell suspension cultures of transgenic Nicotiana tabacum promoted cell growth and the production of the recombinant murine granulocyte macrophage-colony stimulating factor (mGM-CSF) in a 5-l stirred tank bioreactor. The specific growth rates were enhanced from 0.27 d^–1 to 0.47 d^–1, 0.37 d^–1 and 0.4 d^–1 when Pluronic F-68, PEG 8000, or PEG 20 000 was added, respectively. The maximum cell density was also increased most to 13.6 g l^–1 when Pluronic F-68 was added (11.3 g l^–1 in the control culture). In terms of mGM-CSF production, PEG 8000 gave the greatest stimulation and with 2 g PEG 8000 l^–1, mGM-CSF increased from 1.6 to 6.6 ng ml^–1.     

Strategies for promoting division of cultured plant protoplasts: synergistic beneficial effects of haemoglobin (Erythrogen) and Pluronic F-68

Novel approaches, involving supplementation of aqueous culture medium with haemoglobin solution (Erythrogen), in the presence or absence of the copolymer surfactant, Pluronic F-68, have been evaluated to facilitate cellular oxygen availability to promote mitotic division. Cell-suspension-derived protoplasts of albino Petunia hybrida cv. Comanche were cultured for up to 45 days in KM8P medium containing 1:50–1:500 (vol:vol) Erythrogen. The mean initial protoplast plating efficiency after 9 days with 1:50 Erythrogen (18.5%) was significantly greater (P<0.05) than in untreated controls (11.3%). Supplementation of culture medium with 1:50 Erythrogen, together with 0.01% (wt/vol) Pluronic F-68, increased the mean plating efficiency after 9 days (24.4%) by 92% (P<0.05) over the control (12.7%). These treatments also produced increases in biomass of protoplast-derived cells up to 2.5-fold greater than control (P<0.01) over 80 days. Gassing the medium, containing 1:50 Erythrogen, with carbon monoxide abolished the increase in plating efficiency. There was no additional benefit of gassing Erythrogen-supplemented medium with 100% oxygen. The synergistic, beneficial effect of Erythrogen and Pluronic F-68 on protoplast division has implications for plant biotechnology utilising protoplasts. Received: 24 May 1996 / Revision received: 12 July 1996 / Accepted: 15 August 1996     

Sparged animal cell bioreactors: mechanism of cell damage and Pluronic F-68 protection.

Pluronic F-68 is a widely used protective agent in sparged animal cell bioreactors. In this study, the attachment-independent Spodoptera frugiperda Sf9 insect cell line was used to explore the mechanism of this protective effect and the nature of cell damage in sparged bioreactors. First, bubble incorporation via cavitation or vortexing was induced by increasing the agitation rate in a surface-aerated bioreactor; insect cells were rapidly killed under these conditions of the absence of polyols. Supplementing the medium with 0.2% (w/v) Pluronic F-68, however, fully protected the cells. Next, cell growth was compared in two airlift bioreactors with similar geometry but different sparger design; one of these bioreactors consisted of a thin membrane distributor, while the other consisted of a porous stainless steel distributor. The flow rates and bubble sizes were comparable in the two bioreactors. Supplementing the medium with 0.2% (w/v) Pluronic F-68 provided full protection to cells growing in the bioreactor with the membrane distributor but provided essentially no protection in the bioreactor with the stainless steel distributor. These results strongly suggest that cell damage can occur in the vicinity of the gas distributor. In addition, these results demonstrate that bubble size and gas flow rate are not the only important considerations of cell damage in sparged bioreactors. A model of cell death in sparged bioreactors is presented.     

Evidence of Pluronic F-68 direct interaction with insect cells: impact on shear protection, recombinant protein, and baculovirus production*

Pluronic F-68 has been widely used to protect animal cells from hydrodynamic stress, but its mechanism of action is still debatable. Published evidence indicates that Pluronic F-68 interacts with cells, yet scarce information exists of its effect on recombinant protein and virus production by insect cells. In this work, the effect of Pluronic F-68 on production of recombinant baculovirus and rotavirus protein VP7 was determined. Evidence of Pluronic F-68 direct interaction with Sf-9 insect cells also was obtained. Maximum recombinant VP7 concentration and yield increased 10x, whereas virus production decreased by 20x, in spinner flask cultures with 0.05% (w/v) Pluronic F-68 compared to controls lacking the additive. No differences were observed in media rheology, nor kinetics of growth and infection (as inferred from cell size) between both cultures. Hence, Pluronic F-68 influenced cell physiology independently of its shear protective effect. Cells subjected to a laminar shear rate of 3000 s(-1) for 15 min, without gas/liquid interfaces, were protected by Pluronic F-68 even after its removal from culture medium. Furthermore, the protective action was immediate in vortexed cells. The results shown here indicate that Pluronic F-68 physically interacts with cells in a direct, strong, and stable mode, not only protecting them from hydrodynamic damage, but also modifying their capacity for recombinant protein and virus production.