Comparative effects of fusion facilitators on electrofusion attributes of N. tabacum mesophyll protoplasts

Mesophyll protoplasts isolated from in vitro-grown Nicotiana tabacum L. shoots were subjected to electrofusion.Dielectrophoresis was induced by an AC field of 50 V cm^-1 inter-electrode distance and 0.5 MHz oscillation frequency. Fusion was effected by two 0.7 kV cm^-1 DC pulses, each of 50 s duration, applied within one second of each other. Various chemical treatments were tested for their effects on dielectrophoresis efficiencies (percentages of protoplasts that made contact with at least one other protoplast under the AC field), fusion efficiencies (percentages of protoplasts participating in fusion events), cell lysis (percentages of protoplasts bursting during the electrofusion processes), overall viabilities of fusion products 24 h post-fusion and overall plating efficiencies 7 d post-fusion (percentages of fusion-derived cells that had undergone division). The various attributes assessed on the electrofusion of protoplasts in the control treatment, 10% mannitol, differed considerably for experiments carried out on different days. Relative to the control treatment, only the Ca²⁺ treatments, and to a lesser extent lipase treatment reduced dielectrophoresis efficiencies. Polyamines, cytochalasins and Ca²⁺ treatments significantly reduced cell lysis percentages. All electrofusion facilitators tested (except for spermine at 150 mg l^-1, the cytochalasins B and D, and Ca²⁺ treatments) increased fusion efficiencies to more than 1.5 times those obtained with the standard 10% mannitol electrofusion medium. Ca²⁺ treatments increased overall viabilities of fusion products by more than 1.5 times. With the exception of the prostaglandins, lecithin and CaCl₂ treatments, overall plating efficiencies were reduced by treatment of protoplasts with fusion facilitators. Substantial increases in overall plating efficiencies over those observed in the control treatment were obtained using prostaglandin F_2a, lecithin and CaCl₂.2H₂O treatments. The implications of the results are discussed.Abbreviations AC alternating current, approx.-approximately - BA benzylaminopurine, cv.-cultivar - DC direct current, diam.-diameter - FDA fluorescein diacetate - MS Murashige & Skoog (1962) - NAA napthaleneacetic acid - PCM protoplast culture medium - PIM protoplast isolation medium - PPM protoplast purification medium - rpm revolutions per minute - SD(n) standard deviation of a variate - SEM standard error of the mean     

Factors affecting the electrofusion efficiency ofPorphyra protoplasts

The effects of various factors on the electrofusion efficiencies ofPorphyra protoplasts were investigated. These factors were protoplast stabilizing reagents, divalent cations, membrane digestive enzymes and cold storage of the protoplasts. Fusion efficiencies were dependent on the concentrations of reagents used to adjust the osmotic pressure of the medium. With mannitol or sorbitol the maximum fusion efficiency (approximately 16%) was observed at concentrations of 0.6 to 0.7 M; glucose was less effective. Brief treatment of the protoplasts with pronase stimulated electrofusion, whereas treatment with proteinase K, trypsin, phospholipase C or lipase repressed fusion. The addition of Ca²⁺ at 10^-5 to 10^-4 M in the protoplast medium enhanced the fusion efficiency to approximately four times that of the non-treated control. Sr²⁺ and Co²⁺ also stimulated electrofusion, but less effectively than Ca²⁺. The fusion capacity of the protoplasts remained stable for about 3 h when kept on ice, but decreased gradually when left at room temperate.     

Possible involvement of calmodulin and the cytoskeleton in electrofusion of plant protoplasts

Calmodulin antagonists, trifluoperazine, chlorpromazine, calmidazolium, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), strongly inhibited the electrofusion of barley (Hordeum vulgare L. cv Moor) protoplasts with a marked increase of broken fusion products, after 60 minutes of incubation. W-5, a dechlorinated analog of W-7, was found less effective for the inhibition than W-7. Ethyleneglycol-bis(β- aminoethylether)-N,N′-tetraacetic acid a Ca²⁺ chelator, La³⁺, a surface Ca²⁺ antagonist, and verapamil, a Ca²⁺ channel blocker, also inhibited electrofusion. Dielectrophoresis was inhibited by La³⁺. A microtubule inhibitor, vinblastine, inhibited electrofusion strongly while colchicine, slightly. A microfilament inhibitor, cytochalasin B, promoted fused cells to become spherical while phalloidin did not affect electrofusion.     

Electrofusion of giant protoplasts of Pleurotus cornucopiae

Summary Giant protoplasts of Pleurotus cornucopiae were fused, using the glass microelectrode electrofusion technque; the percentage fusion achieved was 70%. To induce fusion, Ca²⁺ was necessary, a 10 mM concentration giving the best result. Polyethylene glycol 4000 (PEG) promoted fusion but also increased the adhesion of protoplasts, which caused them to be irreversibly attached to the electrodes. Fusion was always completed within 1 min after a single electrical pulse had been applied. The fused protoplast was isolated with a glass micropipette and was found to regenerate into a colony.     

Effects of prostaglandins e(2) and f(2alpha) on the electrofusion of pea mesophyll protoplasts

The effects of prostaglandins E₂ and F_2α on the electrofusion of pea (Pisum sativum cv Ran 1) mesophyll protoplasts were examined. Prostaglandins E₂ and F_2α influenced electrofusion by lowering the threshold voltage necessary for fusion of dielectrophoretically arranged pairs of protoplasts. The direct current voltage threshold decreased with increasing Ca²⁺ concentration up to 0.1 millimolar CaCl₂ and the effects of prostaglandins E₂ and F_2α were more pronounced when CaCl₂ was present in the medium. Treatment with calcium channel blocker methoxy verapamil did not change the prostaglandin effects, while the addition of ethyleneglycol-bis (β-aminoethyl either)-N,N,N′,N′-tetraacetic acid, which binds free Ca²⁺, increased the threshold voltage. Influence of prostaglandins E₂ and F_2α and Ca²⁺ on the membrane fluidity was investigated by analysis of pyrene fluorescence spectra. The values of the ratio between the maximum fluorescence emission intensities of the excimer and the monomer forms (I_ex/I_mon) indicated that prostaglandins and Ca²⁺ decrease the membrane fluidity. It is proposed that electrically evoked displacement of plasmalemma components takes part in the fusion process (U Zimmermann 1982 Biochim Biophys Acta 694: 227-277). We suggest that prostaglandins E₂ and F_2α facilitate the electrofusion of pea mesophyll protoplasts by changing the fluidity of plasmalemma.     

Effects of la on surface charges, dielectrophoresis, and electrofusion of barley protoplasts

When dielectrophoresis and electrofusion of barley (Hordeum vulgare var Moor) leaf protoplasts were assayed in the presence of 0.1 to 1 millimolar lanthanum ion (La³⁺) in the basal medium (0.7 molar mannitol, 1 millimolar piperazine-N, N-bis[2-ethanesulfonic acid]-Na [pH 6.7], 0.1 millimolar CaCl₂), dielectrophoresis and induction of electrofusion were strongly inhibited. The latter remained inhibited and the former recovered by about 60% after washing the La³⁺ -treated protoplasts without EDTA. These inhibitions were almost completely abolished by washing the La³⁺ -treated protoplasts with 1 millimolar EDTA. Inductively coupled plasma atomic emission spectroscopic analysis revealed that protoplasts retained a considerable amount of La³⁺ after washing without EDTA and released most of the bound La³⁺ by washing with 1 millimolar EDTA. This tightly bound La³⁺ seemed responsible for the inhibition of electrofusion and dielectrophoresis that was observed in the La³⁺ -treated protoplasts after washing. ζ-potentials of protoplasts were -39.0±3.2 millivolts, -16.7 ± 2.6 millivolts, and virtually zero in media containing 0, 0.1, and 0.3 millimolar La³⁺ (I = 7.2 millimolar), respectively, and had a positive value (+ 14.2 ± 2.2 millivolts) in the presence of 1 millimolar La³⁺. These effects of La³⁺ on ζ-potentials were easily abolished by washing without EDTA. This indicates that charged species located at the surface of plasma membrane of protoplasts cannot account for the sites at which La³⁺ exerts its inhibition of dielectrophoresis and electrofusion. In contrast, the promotion of spherical fusion and the reduction of broken fusion products observed in the presence of La³⁺ were almost completely abolished by washing without EDTA. Our results also indicate that the initial induction and development of electrofusion can be studied independently.     

Factors affecting protoplast electrofusion efficiency

The electrofusion efficiency of protoplasts isolated from a carrot (Daucus carota) suspension culture was increased by treatment with 0.1 mg/ml lysolecithin, 2.5% dimethylsulfoxide (DMSO), or 0.5 mM Ca²⁺. The lysolecithin and DMSO treatments substantially increased protoplast lysis, whereas calcium treatment did not. The enzymes used for protoplast isolation were also found to have a dramatic effect on the efficiency of fusion. A mixture of Cellulysin and Driselase led to a two-fold enhancement of fusion as compared with Driselase alone. The stimulation by Cellulysin appears to be due to enzymatic modification of the cell surface. However, comparison of the time course for wall digestion with the development of susceptibility to electrofusion suggests that the effect of Cellulysin is not simply due to removal of the cell wall. Brief treatment of the cells with pronase or proteinase K also doubled the efficiency of fusion. Taken together, these results indicate that electrofusion efficiency can be enhanced by the method used for protoplast isolation; they also suggest that modification of membrane/cell-surface proteins during protoplast isolation may be particularly important in determining electrofusion efficiencies.Abbreviations a.c. alternating current - d.c. direct current - DMSO dimethylsulfoxide - NAA naphthaleneacetic acid - PEG polyethylene glycol     

Somatic hybridization of amino acid analogue-resistant cell lines of potato (Solanum tuberosum L.) by electrofusion

Summary Intraspecific somatic hybridization between amino acid analogue-resistant cell lines of potato (Solanum tuberosum L.) has been carried out following electrofusion of protoplasts. In initial analytical electrofusion experiments (1 mm electrode separation) optimal fusion conditions were determined by changing the fusion medium (addition of Ca and/or spermine) and the electrical parameters. Subsequently, in large scale experiments, cell suspension protoplasts of aec-1, a variant resistant to AEC, were fused with the same type of protoplasts of 5mt-26 or 5mt-27, both variants resistant to 5MT and cross-resistant to 3 FT. After an extensive selection procedure only somatic hybrid lines of aec-1 + 5mt-26 were obtained. The resistance traits of aec-1 and 5mt-26 were expressed fully, indicating that the variant characters involved are transmitted dominantly. Quantitative examination of the free amino acid content revealed characteristics of both the parental cell lines in most of the somatic hybrids. However, initially selected double resistant colonies from fusions of aec-1 + 5mt-27 lines appeared not to be somatic hybrids.Abbreviations AEC S-aminoethylcysteine - 3FT 3-fluorotyrosine - 5MT 5-methyltryptophan     

Induction of fast-growing and morphologically different strains through intergeneric protoplast fusions of Ulva and Enteromorpha (Ulvales,Chlorophyta)

Isolated protoplasts of Ulva pertusa and Enteromorpha prolifera were electrically fused. Treatment of protoplasts in 1% protease for 15–20 min prior to fusion enhanced fusion ability. Protoplasts from each fusion partner were mixed together in 1:1 ratio in low conductivity electrofusion solution at a density of 1 × 10⁵ cells ml⁻¹ before subjecting them to electrofusion. The protoplasts were aligned in AC field (1MHz, 25 V for 10–15 s) and subsequently fused by a high intensity single DC pulse of 250 V for 25 μs duration. Fusion buffer supplemented with 1 mM calcium and 1 mM magnesium yielded optimum fusion frequencies (about 18–24%). Entrapment of fusion treated cells inside agarose/agar plate facilitated marking and regeneration of fusion products. The regeneration patterns of fused protoplasts were similar to normal (unfused) protoplast development. Most of the regenerated plants from fusion products had a thallus similar to either U. pertusa type or E. prolifera type. Although some of the plants of the former were morphologically similar to U. pertusa, but most had a higher growth rate (1.9 to 1.5 times) than U. pertusa. Furthermore the thallus of some plants had a characteristic irregular and dentate margin, which was never observed in the parental type.     

Anoxia-induced elevation of cytosolic Ca<Superscript>2+</Superscript> concentration depends on different Ca<Superscript>2+</Superscript> sources in rice and wheat protoplasts

The anoxia-dependent elevation of cytosolic Ca²⁺ concentration, [Ca²⁺]_cyt, was investigated in plants differing in tolerance to hypoxia. The [Ca²⁺]_cyt was measured by fluorescence microscopy in single protoplasts loaded with the calcium-fluoroprobe Fura 2-AM. Imposition of anoxia led to a fast (within 3 min) significant elevation of [Ca²⁺]_cyt in rice leaf protoplasts. A tenfold drop in the external Ca²⁺ concentration (to 0.1 mM) resulted in considerable decrease of the [Ca²⁺]_cyt shift. Rice root protoplasts reacted upon anoxia with higher amplitude. Addition of plasma membrane (verapamil, La³⁺ and EGTA) and intracellular membrane Ca²⁺-channel antagonists (Li⁺, ruthenium red and cyclosporine A) reduced the anoxic Ca²⁺-accumulation in rice. Wheat protoplasts responded to anoxia by smaller changes of [Ca²⁺]_cyt. In wheat leaf protoplasts, the amplitude of the Ca²⁺-shift little depended on the external level of Ca²⁺. Wheat root protoplasts were characterized by a small shift of [Ca²⁺]_cyt under anoxia. Plasmalemma Ca²⁺-channel blockers had little effect on the elevation of cytosolic Ca²⁺ in wheat protoplasts. Intact rice seedlings absorbed Ca²⁺ from the external medium under anoxic treatment. On the contrary, wheat seedlings were characterized by leakage of Ca²⁺. Verapamil abolished the Ca²⁺ influx in rice roots and Ca²⁺ efflux from wheat roots. Anoxia-induced [Ca²⁺]_cyt elevation was high particularly in rice, a hypoxia-tolerant species. In conclusion, both external and internal Ca²⁺ stores are important for anoxic [Ca²⁺]_cyt elevation in rice, whereas the hypoxia-intolerant wheat does not require external sources for [Ca²⁺]_cyt rise. Leaf and root protoplasts similarly responded to anoxia, independent of their organ origin.     

Polyamines Biological modulators of membrane fusion

The effect of polyamines on the kinetics of Ca²⁺- and Mg²⁺-mediated membrane fusion was studied by following the intermixing of the contents of vesicles composed of phosphatidate/phosphatidylserine/ phosphatidylethanolamine/cholesterol (1:2:3:2). Addition of polyamines at specific concentration ranging from 40 to 400 μM promoted aggregation of the vesicles. In addition, low levels of spermine (50–100 μM) enhanced both Ca²⁺ - and Mg²⁺-mediated fusion. The initial fusion rate of this membrane system increased more than 200-fold when fusion was initiated by Ca²⁺ after 5 min pre-incubation of vesicles with 50 μM spermine. These results indicate that in addition to their other known effects on cellular metabolism, polyamines may be involved in modulating intracellular membrane fusion.     

Fusion of plant protoplasts: a study using auxotrophic mutants of Nicotiana plumbaginifolia,Viviani

Summary Protoplast fusion studies between various auxotrophic mutants of Nicotiana plumbaginifolia were performed to optimize conditions for PEG-mediated fusion and to identify factors influencing the plant protoplast fusion process. Numerous parameters in the isolation, culture, and fusion of protoplasts were tested, and established fusion protocols were compared. Fusion rates, calculated on the basis of colony growth on selection medium (genetic complementation), ranged from 10^–4 to 10^–2. Conditions that allow rapid and reproducible fusions at the highest rates were established. Particular emphasis was given to fusion of mesophyll-derived protoplasts, for which the ability to regenerate fertile plants from fusion products was shown to be particularly high. Preliminary experiments using electric-field mediated fusion suggest that electrofusion may offer significant advantages over the traditional chemical fusion.     

Preparation of protoplasts from Laminaria japonica using native and recombinant abalone alginate lyases

Laminaria japonica protoplasts were released with high yields using the abalone alginate lyase HdAly in combination with a cellulase and chelating agents. Addition of EDTA at concentrations higher than 10 mM to Laminaria thalli which had been preincubated with HdAly and Cellulase Onozuka, dramatically improved the yield of protoplasts. EDTA was far more effective than EGTA, indicating that chelating divalent metal ions such as Mg²⁺ and Sr²⁺ in addition to Ca²⁺ is a key factor for high-yield production of Laminaria protoplasts. Protoplasts had a mean diameter of 27 μm, suggesting that most protoplasts were derived from cortical cells rather than epidermal layer cells. Recombinant HdAly (rHdAly) was produced from a cDNA clone in the Sf9 insect cell expression system. rHdAly had substantially the same enzymatic properties and protoplast-producing ability as did native HdAly. The optimal conditions for high yield production of protoplasts from Laminaria using native and recombinant HdAlys were investigated.     

Behavior and viability of tobacco protoplasts in response to electrofusion parameters

This investigation examines responses of protoplasts in a systematic and quantitative way to the various electrical treatments used to achieve electrofusion and their individual and cumulative effect on protoplast viability. Mesophyll and cell suspension protoplasts from two species of the same genera, Nicotiana tabacum and N. rustica var brasilia were used in these experiments. Optimal frequencies for alignment of tobacco protoplasts were between 500 kilohertz and 2 megahertz at 100 volts per centimeter. Variations in frequency and voltage of the alternating current (AC) field caused predictable movements of protoplasts within an electrofusion chamber. AC frequencies below 10 hertz or above 5 megahertz significantly decreased the viability of protoplasts in the fusion chamber as estimated by fluorescein diacetate staining 1 hour after treatment. Although the direct current (DC) pulse appeared to have a slight detrimental effect on protoplast viability, this effect was not significantly different from untreated control preparations.

Protoplasts from both leaf mesophyll cells and suspension cells were induced to fuse with one or more 10 to 30 microseconds DC square wave pulses of approximately 1 kilovolt per centimeter after the protoplasts had been closely appressed with an AC field.

     

Electrofused giant protoplasts of Saccharomyces cerevisiae as a novel system for electrophysiological studies on membrane proteins

Giant protoplasts of Saccharomyces cerevisiae of 10-35 µm in diameter were generated by multi-cell electrofusion. Thereby two different preparation strategies were evaluated with a focus on size distribution and “patchability” of electrofused protoplasts. In general, parental protoplasts were suitable for electrofusion 1-12 h after isolation. The electrophysiological properties of electrofused giant protoplasts could be analyzed by the whole-cell patch clamp technique. The area-specific membrane capacitance (0.66 ± 0.07 µF/cm²) and conductance (23-44 µS/cm²) of giant protoplasts were consistent with the corresponding data for parental protoplasts. Measurements with fluorescein-filled patch pipettes allowed to exclude any internal compartmentalisation of giant protoplasts by plasma membranes, since uniform (diffusion-controlled) dye uptake was only observed in the whole-cell configuration, but not in the cell-attached formation. The homogeneous structure of giant protoplasts was further confirmed by the observation that no plasma membrane associated fluorescence was seen in the interior of giant cells after electrofusion of protoplasts expressing the light-activated cation channel Channelrhodopsin-2 (ChR2) linked to yellow fluorescent protein (YFP). Patch clamp analysis of the heterologously expressed ChR2-YFP showed typical blue light dependent, inwardly-directed currents for both electrofused giant and parental protoplasts. Most importantly, neither channel characteristics nor channel expression density was altered by electric field treatment. Summarising, multi-cell electrofusion increases considerably the absolute number of membrane proteins accessible in patch clamp experiments, thus presumably providing a convenient tool for the biophysical investigation of low-signal transporters and channels.     

myo-Inositol Trisphosphate Mobilizes Calcium from Fusogenic Carrot (Daucus carota L.) Protoplasts

To determine whether or not inositol trisphosphate (IP₃) mobilizes calcium in higher plant cells, we investigated the effect of IP₃ on Ca²⁺ fluxes in fusogenic carrot (Daucus carota L.) protoplasts. The protoplasts were incubated in ⁴⁵Ca²⁺-containing medium and the ⁴⁵Ca²⁺ associated with the protoplasts was monitored with time. Addition of IP₃ (20 micromolar) caused a 17% net loss of the accumulated ⁴⁵Ca²⁺ within 4 minutes. There was a reuptake of ⁴⁵Ca²⁺ and the protoplasts recovered to their initial value by 10 minutes. Phytic acid (IP₆), also stimulated ⁴⁵Ca²⁺ efflux from the protoplasts. Both the IP_3⁻ and the IP_6⁻induced ⁴⁵Ca²⁺ efflux were inhibited by the calmodulin antagonist, trifluoperazine.     

Fusion of small unilamellar liposomes with phospholipid planar bilayer membranes and large single-bilayer vesicles

Small unilamellar phosphatidylserine/phosphatidylcholine liposomes incubated on one side of planar phosphatidylserine bilayer membranes induced fluctuations and a sharp increase in the membrane conductance when the Ca²⁺ concentration was increased to a threshold of 3–5 mM in 100 mM NaCl, pH 7.4. Under the same ionic conditions, these liposomes fused with large (0.2 μm diameter) single-bilayer phosphatidylserine vesicles, as shown by a fluorescence assay for the mixing of internal aqueous contents of the two vesicle populations. The conductance behavior of the planar membranes was interpreted to be a consequence of the structural rearrangement of phospholipids during individual fusion events and the incorporation of domains of phosphatidylcholine into the Ca²⁺-complexed phosphatidylserine membrane. The small vesicles did not aggregate or fuse with one another at these Ca²⁺ concentrations, but fused preferentially with the phosphatidylserine membrane, analogous to simple exocytosis in biological membranes. Phosphatidylserine vesicles containing gramicidin A as a probe interacted with the planar membranes upon raising the Ca²⁺ concentration from 0.9 to 1.2 mM, as detected by an abrupt increase in the membrane conductance. In parallel experiments, these vesicles were shown to fuse with the large phosphatidylserine liposomes at the same Ca²⁺ concentration.     

Yeast mitochondrial calcium uptake: Regulation by polyamines and magnesium ions

Spermine, spermidine, and magnesium ions modulate the kinetic parameters of the Ca²⁺ transport system ofEndomyces magnusii mitochondria. Mg²⁺ at concentrations up to 5 mM partially inhibits Ca²⁺ transport with a half-maximal inhibiting concentration of 0.5 mM. In the presence of 2 mM MgCl₂, theS _0.5 value of the Ca²⁺ transport system increases from 220 to 490 µM, which indicates decreased affinity for the system. Spermine and spermidine exert an activating effect, having half-maximal concentrations of 12 and 50 µM, respectively. In the case of spermine, theS _0.5 value falls to 50–65 µM, which implies an increase in the transport system affinity for Ca²⁺. Both Mg²⁺ and spermine cause a decrease of the Hill coefficient, giving evidence for a smaller degree of cooperativity. Spermine and spermidine enable yeast mitochondria to remove Ca²⁺ from the media completely. In contrast, Mg²⁺ lowers the mitochondrial buffer capacity. When both Mg²⁺ and spermine are present in the medium, their effects on theS _0.5 value and the free extramitochondrial Ca²⁺ concentration are additive. The ability of spermine and Mg²⁺ to regulate yeast mitochondrial Ca²⁺ transport is discussed.     

Polyamines permit the preparation of stable Physarum core particles which have a structure similar to those from higher eukaryotes

The inherent instability of Physarum nucleosome core particles prepared by micrococcal nuclease digestion in Na⁺/Ca²⁺ buffers can be overcome by the addition of 0.15 mM spermine and 0.5 mM spermidine. Neutron scattering, circular dichroism, nuclease digestion and thermal denaturation studies carried out on these stable monosomes show them to be very similar to those obtained from higher eukaryotes.