Near-infrared fluorescent nanocapsules with reversible response to thermal/pH modulation for optical imaging

Polymeric near-infrared (NIR) fluorescent nanocapsules were developed, of which the fluorescence exhibited reversible response to local thermal/pH modulation. Our strategy was to use polymeric micelles made of temperature-sensitive Pluronic F-127 to encapsulate an amphiphilic NIR fluorescent dye-indocyanine green (ICG)-within the core and then cross-link the micelle corona by pH-sensitive poly(ethylenimine) (PEI). The size swelling/shrinking property of the micelles induced by temperature decrease/increase was used as a switch to control the fluorescence yield of the nanocapsules. It was found that the fluorescence yield significantly increased with the increase in temperature. The PEI cross-link made the fluorescence yield also sensitive to local pH change and enhanced intracellular delivery of the nanocapsules as well. Preliminary results suggest the NIR fluorescent probes could be potentially used as a contrast agent sensitive to local environment for translational optical imaging/sensing.     

Catechol-functionalized chitosan/pluronic hydrogels for tissue adhesives and hemostatic materials

Bioinspired from adhesion behaviors of mussels, injectable and thermosensitive chitosan/Pluronic composite hydrogels were synthesized for tissue adhesives and hemostatic materials. Chitosan conjugated with multiple catechol groups in the backbone was cross-linked with terminally thiolated Pluronic F-127 triblock copolymer to produce temperature-sensitive and adhesive sol-gel transition hydrogels. A blend mixture of the catechol-conjugated chitosan and the thiolated Pluronic F-127 was a viscous solution state at room temperature but became a cross-linked gel state with instantaneous solidification at the body temperature and physiological pH. The adhesive chitosan/Pluronic injectable hydrogels with remnant catechol groups showed strong adhesiveness to soft tissues and mucous layers and also demonstrated superior hemostatic properties. These chitosan/Pluronic hydrogels are expected to be usefully exploited for injectable drug delivery depots, tissue engineering hydrogels, tissue adhesives, and antibleeding materials.     

Hydrogel composed of acrylic coumarin and acrylic Pluronic F-127 and its photo- and thermo-responsive release property

Hydrogels comprising acrylic coumarin (AC) and acrylic Pluronic F-127 (APF) were prepared by a free radical reaction and its photo- and thermal-responsive release property was investigated using methylene blue as a solute. AC and APF were prepared successfully, confirmed by ¹H NMR spectroscopy. The molar ratio of Pluronic F-127 chain to vinyl group of APF was 1:1.3, suggesting that diacrylic Pluronic F-127 which could act as a cross-linker for the formation of polymer networks was produced. The coumaryl groups of AC were dimerized as much as 60.1% by 2 h-UV irradiation. On the DSC thermogram, APF exhibited its melting point around 55.4°C, about 0.9°C lower than the melting point of Pluronic F-127. The gelling temperature of Pluronic F-127 solution (25% (w/v)) was about 40°C, determined by a viscometric method. The swelling ratio of the hydrogels increased up to greater than 8 in 30 min. The maximum release degree at 23 and 50°C of dye loaded in the hydrogels was suppressed by UV irradiation, possibly because of the photo-dimerization of coumaryl groups. The release degree at 50°C of dye loaded in the UV-treated hydrogels was lower as the content of APF was higher, possibly because the thermally induced gelation of the polymer chains could suppress the payload release from the hydrogels.     

Utilizing temperature-sensitive association of Pluronic F-127 with lipid bilayers to control liposome-cell adhesion

The temperature sensitive properties of Pluronic F-127 (MW ∼12?600, PEO₉₈-PPO₆₇-PEO₉₈), a block co-polymer or poloxamer, was used to control liposome-cell adhesion. When associated with liposomes, the PEO moiety of the block co-polymer is expected to inhibit liposome-cell adhesion. Liposomes were made using egg phosphatidylcholine and different mole% of Pluronic F-127. Size measurement of the liposomes at different temperatures, in the presence and absence of Pluronic F-127, shows significant reduction in the size of multilamellar vesicles, at higher temperatures, by the Pluronic molecules. Negative stain electron microscopy study showed the presence of individual molecules and micelles of Pluronic, respectively at temperatures below and above the critical micellar temperature (CMT). Measurement of the surface associated Pluronics indicated that they associated with liposomes when the sample was heated above the Pluronic CMT, and dissociated from liposomes when cooled below the CMT. Attachment of the Pluronic containing liposomes to CHO cells was inhibited at temperatures above the CMT, but not at temperatures below CMT, indicating that temperature-sensitive control of liposome-cell adhesion is achieved.     

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.     

Reduction of the in vitro hemolytic activity of soybean lecithin liposomes by treatment with a block copolymer

The in vitro hemolytic activity of liposomes made of soybean L-alpha-lecithin towards diluted (0.0086 v/v) human erythrocytes was used to investigate the effect of surface coating on the interaction of liposomes with cells. The increase in apparent volume of the block copolymer of ethylene glycol and propylene glycol, Pluronic F-127, in the presence of liposomes supports the hypothesis of either adsorption or penetration of the copolymer at the surface of the liposomes. When the liposomes are pre-incubated with Pluronic F-127, their lytic activity towards fresh erythrocytes is significantly reduced while it remains unchanged towards erythrocytes aged in vitro. It is also found that aging the liposomes has little effect on their lytic activity while aging of the erythrocytes makes them more fragile towards the liposomes. The results are discussed in terms of steric hindrance.     

Comparison of Biomass Dry Weights and Radial Growth Rates of Fungal Colonies on Media Solidified with Different Gelling Compounds

Penicillium commune, Aureobasidium pullulans, and Paecilomyces farinosus were grown on two different media solidified with agar, Pluronic F-127, Carrageenan X-4910, or Carrageenan X-4910 overlaid with cellophane. Growth on Carrageenan X-4910 was generally the same as that on agar, as was the visual appearance of the colonies, e.g., the pigmentation. The Carrageenan X-4910 gels had a melting point, depending on the medium, of 41 to 46(deg)C, and the dry weights of the colonies were readily determined at 60(deg)C. To determine the dry weights of the colonies grown on agar plates, the gels were boiled for 10 min to melt the agar. Comparison of these two procedures showed that the boiling procedure resulted in a 22% reduction of the biomass dry weight. Cellophane membranes did not affect the radial growth rate profoundly. The biomass density was almost halved for P. commune and P. farinosus grown with membranes, whereas the presence of the membrane did not affect the biomass density of A. pullulans. The biomass densities of the colonies grown on Pluronic F-127 were significantly reduced, while in most cases, the radial growth rates of colonies grown on Pluronic F-127 were significantly higher than those obtained on agar or Carrageenan X-4910. Furthermore, the morphology of the leading hyphae was altered, and the hyphal growth unit length was more than twice that obtained on agar and Carrageenan X-4910. Carrageenan X-4910 is a valuable gelling compound for the study of the growth of fungi, as the biomass dry weight is readily determined and growth is similar to that obtained on agar gels.     

In vitro release of lysozyme from gelatin microspheres: effect of cross-linking agents and thermoreversible gel as suspending medium

This study was aimed to characterize the microstructure and the performance of gelatin microspheres (GMs) cross-linked by two different cross-linkers viz. d-glucose and glutaraldehyde. New formulations were obtained, suspending the GMs in a thermoreversible Pluronic F127 (PF127) liquid-crystalline gel. Lysozyme was used as a model biomacromolecular drug to evaluate release features. Both types of cross-linked GMs were prepared by thermal gelation method. The lysozyme-loaded microspheres were characterized by scanning electron microscopy (SEM) for size distribution, shape, and surface texture. SEM revealed that both types of lysozyme-loaded GMs were spherical in shape and that the surface of glutaraldehyde cross-linked GMs was smoother than that of the glucose cross-linked GMs. The degree of cross-linking of microspheres was investigated using ATR-FTIR technique. The prepared GMs were suspended in 20% w/v aqueous PF127 gel for which the usual sol-gel transition temperature of 22 °C did not change in the presence of GMs, as indicated by rheological measurements. SAXS study of the PF127 gel confirmed the occurrence of a discrete cubic liquid-crystalline phase of the Fm3m type whose lattice parameter slightly decreased as a result of GMs addition. The in vitro release of lysozyme from both types of cross-linked GMs was successfully controlled when they were suspended in PF127 gel, thus suggesting the potential use of this new combined formulation as a drug-depot system.     

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.     

Use of a synthetic polymer (Pluronic F-127) as an agar substitute in culture medium to detect and measure microbial enzyme production

Summary A simple and rapid detection of proteolytic activity of microbial sources on a thermally reversible gel (Pluronic F-127) is described.     

Stimulation of multiple shoot regeneration from seedling leaves of Hypericum perforatum L. by pluronic F-68

The effects of the non-ionic surfactant, Pluronic F-68, on the growth of shoots regenerated from seedlings (14 days post-germination) of Hypericum perforatum L. were studied. The supplementation of agar-solidified medium with 0.001% (w/v) of Pluronic increased the mean fresh weight of the regenerants after 60 days by 40% and the mean number of plant regenerants recovered per seedling by 34%; a less pronounced increase in the number of regenerants occurred with 0.01% (w/v) of the surfactant. By contrast, the mean fresh weight of the regenerants cultured in the presence of 0.1% (w/v) Pluronic F-68 was 15% lower than untreated controls, although the mean number of regenerants per seedling remained unaltered. The growth of seedling leaf-derived Hypericum callus after 60 days was unaffected by all the concentrations of Pluronic tested. However, there was a tendency for callus cells grown in the presence of Pluronic to be more highly pigmented with anthocyanins. The cultivation of leaf explants with 0.001% or 0.01% (w/v) Pluronic did not affect either the mean fresh weight of the regenerants or the mean number of regenerants per explant. However, decreases in both the mean fresh weight and the mean number of regenerants (both 33.0% lower than the control) occurred following the cultivation with 0.1% (w/v) Pluronic.     

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 oxygen transport in an agitated,sparged bioreactor

The gassing out method was used to study the effect of Pluronic F-68 on oxygen transport in an agitated, sparged bioreactor. At a low air sparge rate (0.07 vvm), the addition of Pluronic F-68 had a minimal effect on K_La in both water and medium at low agitation rates. As the agitation rate was increased at this low sparge rate the relative inhibitory effect of Pluronic F-68 on K_La increased with increasing agitation rate. At an air sparge rate of 0.80 vvm, the addition of Pluronic F-68 resulted in a significant reduction in K_La at all agitation rates studied.     

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     

Oil-encapsulating PEO-PPO-PEO/PEG shell cross-linked nanocapsules for target-specific delivery of paclitaxel

PEO-PPO-PEO/PEG shell cross-linked nanocapsules encapsulating an oil phase in their nanoreservoir structure was developed as a target-specific carrier for a water-insoluble drug, paclitaxel. Oil-encapsulating PEO-PPO-PEO/PEG composite nanocapsules were synthesized by dissolving an oil (Lipiodol) and an amine-reactive PEO-PPO-PEO derivative in dichloromethane and subsequently dispersing in an aqueous solution containing amine-functionalized six-arm-branched poly(ethylene glycol) by ultrasonication. The resultant shell cross-linked nanocapsules had a unique core/shell architecture with an average size of 110.7 +/- 9.9 nm at 37 degrees C, as determined by dynamic light scattering and transmission electron microscopy. Paclitaxel could be effectively solubilized in the inner Lipiodol phase surrounded by a cross-linked PEO-PPO-PEO/PEG shell layer. The paclitaxel-loaded nanocapsules were further conjugated with folic acid to achieve folate receptor targeted delivery. Confocal microscopy and flow cytometric analysis revealed that folate-mediated targeting significantly enhanced the cellular uptake and apoptotic effect against folate receptor overexpressing cancer cells. The present study suggested that these novel nanomaterials encapsulating an oil reservoir could be potentially applied for cancer cell targeted delivery of various water-insoluble therapeutic and diagnostic agents.     

Chloride accumulation and swelling in endosomes enhances DNA transfer by polyamine-DNA polyplexes

The "proton sponge hypothesis" postulates enhanced transgene delivery by cationic polymer-DNA complexes (polyplexes) containing H+ buffering polyamines by enhanced endosomal Cl- accumulation and osmotic swelling/lysis. To test this hypothesis, we measured endosomal Cl- concentration, pH, and volume after internalization of polyplexes composed of plasmid DNA and polylysine (POL), a non-buffering polyamine, or the strongly buffering polyamines polyethylenimine (PEI) or polyamidoamine (PAM). [Cl-] and pH were measured by ratio imaging of fluorescently labeled polyplexes containing Cl- or pH indicators. [Cl-] increased from 41 to 80 mM over 60 min in endosomes-contained POL-polyplexes, whereas pH decreased from 6.8 to 5.3. Endosomal Cl- accumulation was enhanced (115 mM at 60 min) and acidification was slowed (pH 5.9 at 60 min) for PEI and PAM-polyplexes. Relative endosome volume increased 20% over 75 min for POL-polyplexes versus 140% for PEI-polyplexes. Endosome lysis was seen at >45 min for PEI but not POL-containing endosomes, and PEI-containing endosomes showed increased osmotic fragility in vitro. The slowed endosomal acidification and enhanced Cl- accumulation and swelling/lysis were accounted for by the greater H+ buffering capacity of endosomes containing PEI or PAM versus POL (>90 mM versus 46 H+/pH unit). Our results provide direct support for the proton sponge hypothesis and thus a rational basis for the design of improved non-viral vectors for gene delivery.     

Stabilized nanocarriers for plasmids based upon cross-linked poly(ethylene imine)

Stabilized PEI/DNA polyplexes were generated by cross-linking PEI with biodegradable disulfide bonds. The reaction conversion of different PEIs with the amine reactive cross-linker dithiobis(succinimidyl propionate) (DSP) was investigated, and the molecular weight of the reaction products was identified. Light scattering and microelectrophoresis were employed to assess size and zeta potential of the resulting polyplexes. Polyplex morphology and mechanic stability were investigated using atomic force microscopy. Finally, albumin and erythrocyte interactions and stability against polyanions and high ionic strength were checked. Polyplexes of PEI and DNA were prepared by two different formulation methods, either using pre-cross-linked polymers or by cross-linking polyplexes after complexation. Only the latter method yielded small (100-300 nm) polyplexes with a positive zeta potential when HMW PEI was used, whereas cross-linked LMW PEI resulted in polyplexes with increased size (>1000 nm) and zeta potentials down to -20 mV. In addition, only cross-linking after polyplex formation was able to enhance resistance against polyanion exchange and high ionic strength. AFM images revealed no changes in the morphology of cross-linked HWM PEI polyplexes, and indentation force measurements using AFM significantly increased mechanical stability of cross-linked HMW PEI polyplexes. These polyplexes also displayed significantly reduced interactions with major blood components like albumin and erythrocytes. The resulting biocompatible particles offer a means of combining enhanced polyplex stability with redox-triggered activation for in vivo application.     

Increased hGM-CSF production and secretion with Pluronic F-68 in transgenic<Emphasis Type="Italic">Nicotiana tabacum</Emphasis> suspension cell cultures

The effects of Pluronic F-68, a nonionic surfactant, on the production and secretion of human granulocyte-macrophage colony-stimulating factor (hGM-CSF) in a transgenicNicotiana tabacum cell suspension culture were investigated in this study. The addition of Pluronic F-68 was shown to extend cell survival in the stationary phase, but had no influence on effective initial cell growth. With regard to production, it increased the level of extracellular hGM-CSF two-fold. This may be attributable not only to the enhanced expression level, but also to the improved permeability of the cell membrane due to the interaction between Pluronic F-68 and the cell membrane and cell wall. The effect of Pluronic F-68 on the production and secretion of hGM-CSF in a bioreactor was also evaluated. hGM-CSF production in the bioreactor after the addition of Pluronic F-68 proved more effective than in flask cultures.     

Cross-linked polyethylenimine as potential DNA vector for gene delivery with high efficiency and low cytotoxicity

Polyethylenimine (PEI) has been known as an efficient gene carrier with the highest cationiccharge potential.High transfection efficiency of PEI,along with its cytotoxicity,strongly depends on itsmolecular weight.To enhance its gene delivery efficiency and minimize cytotoxicity,we have synthesizedsmall cross-linked PEI with biodegradable linkages and evaluated their transfection efficiencies in vitro.Inthis study,branched PEI with a molecular weight of 800 Da was cross-linked by small diacrylate[1,4-butanediol diacrylate or ethyleneglycol dimethacrylate (EGDMA)] for 2-6 h.The efficiencies of thecross-linked PEI in in vitro transfection of plasmid DNA containing enhanced green fluorescent protein(EGFP) reporter gene were assessed in melanoma B 16F10 cell line and other cell lines.Flow cytometrywas used to quantify the cellular entry efficiency of plasmid and the transgene expression level.Thecytotoxicities of the cross-linked PEI in these cells were evaluated by MTT assay.EGDMA-PEI 800-4h,atypical cross-linked PEI reported here,mediated a more efficient expression of reporter gene than thecommercially available 25-kDa branched PEI control,and resulted in a 9-fold increase in gene deliveryin B16F10 cells and a 16-fold increase in 293T cells,while no cytotoxicity was found at the optimizedcondition for gene delivery.Furthermore,the transfection activity of polyplexes was preserved in thepresence of serum proteins.     

Effect of shear stress on expression of a recombinant protein by Chinese hamster ovary cells

A flow chamber was used to impart a steady laminar shear stress on a recombinant Chinese hamster ovary (CHO) cell line expressing human growth hormone (hGH). The cells were subjected to shear stress ranging from 0.005 to 0.80 N m(-2). The effect of shear stress on the cell specific glucose uptake, cell specific hGH, and lactate productivity rates were calculated. No morphological changes to the cells were observed over the range of shear stresses examined. When the cells were subjected to 0.10 N m(-2) shear in protein-free media without Pluronic F-68, recombinant protein production ceased with no change in cell morphology, whereas control cultures were expressing hGH at 0.35 microg/10(6 )cells/h. Upon addition of the shear protectants, Pluronic F-68 (0.2% [w/v]) or fetal bovine serum (1.0% [v/v] FBS), the productivity of the cells was restored. The effect of increasing shear stress on the cells in protein-free medium containing Pluronic F-68 was also investigated. Cell specific metabolic rates were calculated for cells under shear stress and for no-shear control cultures performed in parallel, with shear stress rates expressed as a percentage of those obtained for control cultures. Upon increasing shear from 0.005 to 0.80 N m(-2), the cell specific hGH productivity decreased from 100% at 0.005 N m(-2) to 49% at 0.80 N m(-2) relative to the no-shear control. A concurrent increase in the glucose uptake rate from 115% at 0.01 N m(-2) to 142% at 0.80 N m(-2), and decreased lactate productivity from 92% to 50%, revealed a change in the yield of products from glucose compared with the static control. It was shown that shear stress, at sublytic levels in medium containing Pluronic F-68, could decrease hGH specific productivity.