Fine structure of fusion products from soybean cell culture and pea leaf protoplasts

Protoplasts from pea (Pisum sativum L.) leaves and cultured soybean (Glycine max L.) cells were fused by means of polyethylene glycol and subsequently cultured for one week. Both agglutinated protoplasts and cultured fusion products were examined by electron microscopy. Agglutination occurred over large areas of the plasma membranes. The membrane contanct was discontinuous and irregularly spaced. Many cultured fusion products regenerated cell walls and divided to form cell clusters. Fusion of pea and soybean interphase nuclei occurred in some cells. The detection of heterochromatin typical of pea in the synkaryon, even after division, suggests the cells were hybrids. The cytoplasm of the cells from the fusion products contained both soybean leucoplasts and pea chloroplasts. The chloroplasts had apparently ceased dividing and some showed signs of degenerating. Large multinucleate fusion products developed cell walls but failed to divide.Abbreviations PEG polyethylene glycol - SEM scanning electron microscopy - TEM transmission electron microscopy Supported by National Research Council of Canada, Grant A6304     

The fusion of erythrocytes by treatment with proteolytic enzymes and polyethylene glycol.

Polyethylene glycol (PEG) has been utilized to induce homokaryocyte formation in avian and mammalian erythrocytes previously treated with proteolytic enzymes. PEG of molecular weight 6,000-7,5000 was found superior to 1,500 and 20,000 MW PEG. Cells exposed to protease alone, prior to PEG treatment, fused to a high degree (60-95% multinucleated cells), whereas trypsin or pepsin treatment alone allowed very little fusion (2.5%). Trypsin lowered the effectiveness of protease when used in combination. Cells which were not treated with proteolytic enzymes agglutinated in the presence of PEG but did not fuse to a significant extent (0.01%). Fusion was also markedly dependent upon the rate at which PEG was eluted during the fusion process. Electron microscopy indicated that fusion began during the elution of PEG from the agglutinated cells.     

Homokaryons from animal and plant cells generated by electrofusion

A new apparatus was constructed which enables the use of the electrofusion method to obtain polynuclear cells of various mammalian cell lines, erythrocytes and plant protoplasts. This technique was applied to both suspensions and monolayers. Electrical and other physical parameters were monitored to find optimal conditions for mutual contact of cells (dielectrophoresis) and subsequent fusion. In the suspension technique, dielectrophoresis of mouse erythrocytes occurred at a field frequency of 20 kHz and a strength of 500 V.cm-1, whereas cultured mammalian cells and plant protoplasts required a frequency of 1-1.4 MHz and a strength of 250-800 V.cm-1. Fusion of cells was induced after the application of 1 to 10 high-voltage pulses of 1-5 kV.cm-1, 10-36 microseconds duration. After these high-voltage pulses were to the monolayer of mouse L cells, about 12% viable homokaryons were obtained.     

A method for high-frequency intergeneric fusion of plant protoplasts

Summary Protoplasts of Vicia hajastana Grossh. obtained from suspension-culture cells and Pisum sativum L. obtained from leaves adhered tightly to each other in concentrated solutions of high-molecular-weight polyethylene glycol (PEG). The adhesion occurred non-specifically between the free protoplasts from the same species as well as from the different species and genus. It was enhanced by enrichment of the PEG solution with calcium. Very few heteroplasmic fusions occurred during the period when the protoplasts were incubated in the PEG solution. However, many heterokaryons (up to 10%) were formed soon after the PEG solution was diluted out. The same phenomena were also observed in protoplasts from suspension-culture cells of Glycine max L. and from leaves of Hordeum vulgare L. Vicia and soybean protoplasts obtained from cultured cells regenerated cell walls and underwent sustained cell division after such treatment. Some Vicia-pea heterokaryons divided once. Over 10% of the soybean-barley hybrids divided in 7 days. Some divided 4–5 times and formed small clusters of cells in 10 days. The hybrids were recognizable because they contained chloroplasts from the leaf protoplast and exhibited morphological characters typical of the chlorophyll-less cells. None of the protoplasts from pea and barley leaves, either with or without PEG treatment, underwent cell division during the period of observation. The mechanism of adhesion and fusion of the protoplasts has been discussed.National Research Council (Canada) No. 13732.     

Uptake of protoplasts from the filamentous fungiAspergillus nidulans andFusarium oxysporum into protoplasts from celery (Apium graveolens L.)

Summary Protoplasts isolated from celery cell suspension cultures, were mixed with fungal protoplasts, from either the saprophytic speciesAspergillus nidulans or the pathogenic speciesFusarium oxysporum. The incubation of protoplast mixtures with PEG caused close adhesion between plant and fungal protoplasts. Subsequent dilution of PEG resulted in the uptake of protoplasts from either fungal species into the plant protoplast cytoplasm. A range of PEG concentrations, incubation times and dilution rates were tested to maximise adhesion and uptake frequencies. Identification of uptake was achieved either by fluorescent staining of nuclei or by electron-microscopy. A maximum of 10% celery protoplasts had taken upA. nidulans protoplasts after PEG treatment. Fungal protoplasts were taken up into celery protoplast cytoplasm by endocytosis, and were maintained within vesicles; two bounding membranes were observed by electron microscopy. Plant protoplast viability was determined during prolonged incubation following fungal protoplast uptake. The presence ofA. nidulans protoplasts tended to maintain celery protoplast viability and although some morphological disintegration occurred intact celery protoplasts remained for at least 92 h after uptake. The uptake ofF. oxysporum protoplasts markedly depressed celery protoplast viability after 24 h incubation and greater celery protoplast disintegration occurred.Abbreviations PEG Polyethylene glycol - DAPI 4,6-diaminido-2-phenylindole - 2,4-D 2,4-dichlorophenoxyacetic acid     

Fusion Experiments of Isolated Generative Cells in Several Angiosperm Species

The generative cells used for fusion experiments were isolated from pollen grains of Zephyranthes candida and Lycoris radiata by “2-step osmotic shock” and from those of Hippeastrum vittata, Hemerocallis minor and Iris tectorum by “weak enzyme treatment” as reported previously. Using PEG method, fusions have been successfully induced between generative cells of the same species mentioned above, between generative cells of Z. candida and L. radiata, between generative cells and petal protoplasts in L. radiata, and between generative cells of L. radiata and hypocotyl protoplasts of Brassica napus. In all cases either homokaryons or heterokaryons could be obtained. Fusion of nuclei was observed sometimes in homokaryons of generative cells in L. radiata. The generative nuclei in fusion products could be well identified by labelling the generative cells before fusion with DAPI. FDA test demonstrated that most of the fusion products were viable. Factors affecting fusion efficiency including cell density, PEG concentration, duration of PEG treatment and effect of calcium ions were studied in fusion of generative cells in Z. candida. Our experiments indicate that isolated generative cells are likely to be deprived of cell wails and may be regarded as a special kind of protoplasts for direct fusion experiments.     

Single-Pair Fusion of Various Combinations Between Female Gametoplasts and Other Protoplasts in Nicotiana tabacum

This paper reports an enzymatic maceration-osmotic shock method for isolation of tobacco embryo sac and its component cell protoplasts, and also a new method for fusion between single pairs of selected mesophyll protoplasts using polyethylene glycol (PEG) as on inducing agent. An integration of these two methods has led to the successful fusion of female gametoplasts with other kinds of protoplasts. The female gametoplasts described here, in a broad sense, include the egg cell (E), central cell (C) and synergid (S). One of the female gametoplasts was selected and fused with another female, male (generative cell, G) or somatic (mesophyll, M)protoplast. Various combinations were involved: E+S, E+C, E +G, E+M, C+C, C+S, C+G, C+M, S+S, S+G, S+M, etc. Briefly, the authors were able to choose any desired combination to realize single-pair fusion by the new PEG method. For the purpose of culturing such fusion products that were limited in number, the authors had done some preliminary experimets using mesophyll protoplasts as feeder cells. Two methods were adopted: the microdrop culture, and the millicell culture with feeder cells. The mesophyll protoplasts were precultured for 2—3 days in large for population expansion before they were used as feeder cells. One or several protoplasts were cultured in a microdrop or a millicell and were induced formation of small cell clusters. This result indicated that the culture methods might also be suitable for culturing the products from fusion of female gametoplasts and other protoplasts in this plant species.     

Comparative lectin-binding and agglutination properties of the strain-specific,TA3-St,and the non-strain-specific,TA3-Ha,murine mammary carcinoma ascites sublines. Further studies of receptors in epiglycanin

The complex carbohydrates at the cell surfaces of two TA3, murine mammary carcinoma ascites sublines (the strain-specific, TA3-St subline and the nonstrain-specific, TA3-Ha line) were compared by binding studies with ¹²⁵I-labelled concanavalin A (con A), Ricinis communis agglutinin (RCA), and eel-serum agglutinin (ESA). The TA3-Ha cell bound equal amounts of con A, 1.5-fold more RCA, and 4-fold more ESA than the TA3-St cell. Binding-inhibition studies by these lectins and two others [wheat-germ agglutinin (WGA) and potato lectin (STA)] suggest complementary binding-sites between con A and both RCA and ESA. Quantitative agglutination studies with the five lectins, and inhibition determinations by both neuraminidase-treated and untreated epiglycanin revealed that TA3-St, but not TA3-Ha, cells were agglutinated by con A, and that epiglycanin inhibited this agglutination, as well as the agglutination of rabbit erythrocytes by con A. The presence of a con A receptor on epiglycanin was also suggested by the binding of epiglycanin to con A-Sepharose, and its specific elution with methyl α-d-manno-pyranoside. TA3-St cells were agglutinated at a 10-15-fold lower concentration of either STA or RCA than TA3-Ha cells, but both cells were agglutinated by the same concentration of WGA and ESA. Inhibition by epiglycanin of agglutination of TA3-St cells by either STA or ESA occurred at a concentration lower than that of TA3-Ha cells, but epiglycanin inhibited RCA agglutination of TA3-Ha cells at a concentration     

The influence of poly(ethylene glycol) on the molecular dynamics within the glycocalyx

Interaction of polymers with cell surfaces is a question of general interest for cell aggregation and fusion. The molecular dynamics within the surface coat of human erythrocytes as well as alterations of membrane protein arrangement (IMPs) in the presence of poly(ethylene glycol) (PEG) were investigated by EPR spin labeling techniques and freeze-fracture electron microscopy, respectively. AT PEG concentrations which induce aggregation of erythrocytes the surface coat and the protein arrangement is not disturbed by the polymer. This implicate an exclusion of the polymer from the cell surface.     

Isolation and Fusion of Sperm Cells in Several Bicellular Pollen Species

Living sperm cells were isolated in large quantities from the pollen tubes, grown by the in vivo-in vitro technique in 8 bicellular pollen species belonging to 5 families. An “osmotic shook weak enzyme treatment” method could effectively release sperms from pollen tubes and favor sub sequent purification. The viable sperm yields were up to 82.9% in Zephyranthes candida and 78.2% in Hemerocallis minor. Fusions were successfully induced by polyethylene glycol (PEG) according to the "small-scale fusion" procedure in various combinations, viz., between the same sperm cells in 5 species, between sperm cells of Gladiolus gandavensis and Hippeastrum vitta turn, between sperm cells and microspore protoplasts in Hemerocallis minor, and between sperm cells of H. vittatum and microspore protoplasts of Hemerocallis fulva. Test with fluorochrome reaction, more than 85% of the fusion products of sperm cells in Z. candida were viable. The yieid of viable fusion products between sperm cells and microspore protoplasts in Hemerocallis minor was about 75% and half of them could survive after culture for 24h. The induction of fusion between sperm cells and petal protoplasts in G. gandavensis by a combined PEG-dimethyl sulfoxide (DMSO) treatment was investigated in detail. About 90% of the fusion products thus obtamed were viable. Several critical factors affecting the fusion efficiency were studied. These included the ratio of sperm cell number to petal protoplast number in the mixture, concentrations of PEG and DMSO, and duration of incubation in the inducing solution. It appeared that addition of DMSO could significantly increase the fusion frequency, and that there may be a synergistic effect between PEG and DMSO. This is the first attempt to use isolated sperm cells for fusion studies in bicellular pollen species.     

Electron microscopic observations of cell regeneration from cultured protoplasts ofAmmi visnaga

Summary Protoplasts ofAmmi visnaga initiated cell wall formation within 2 days in culture; after 13 days the new cells were enclosed by a cell wall similar to the walls on the original cultured cells. Budding occurred in protoplasts with little or no detectable cell wall. No evidence was obtained for direct participation of any organelle in cell wall formation. The cytoplasm of regenerating cells contained numerous organelles and appeared typical of actively growing plant cells; they were easily distinguished from degenerate cells and protoplasts. While coated vesicles were common, spiny vesicles occurred in only a few cells. Sustained cell division yielded multicellular aggregates. Multinucleate protoplasts, formed by spontaneous fusion, did not divide; some of them contained annulate lamellae with few pore complexes.Supported by the National Research Council of Canada, Grant A6304.     

Transfer of organelles of the alga Chlamydomonas reinhardii into carrot cells by protoplast fusion

A mutant of Chlamydomonas reinhardii which lacks a cell wall was fused with Daucus carota protoplasts using polyethylene glycol and the resulting fusion products were cultured. Fusion involved integration of Chlamydomonas and carrot plasma membranes and the release of algal organelles into the carrot cytoplasm. Chlamydomonas basal bodies, nuclei and chloroplasts were frequently observed in the fusion products. Cultured fusion products regenerated cell walls and divided; most Chlamydomonas organelles degenerated during culture but chloroplasts were still recognizable in the carrot cytoplasm after 10.Abbreviations PEG polyethylene glycol - TEM transmission electron microscopy - SEM scanning electron microscopy This study was undertaken during sabbatical leave in The Research School of Biological Sciences. Australian National University     

Liposome-mediated gene delivery into plant cells

Liposomes may offer several advantages as vectors for gene delivery into plant cells: (1) enhanced delivery of encapsulated DNA by membrane fusion, (2) protection of nucleic acids from nuclease activity, (3) targeting to specific cells, (4) delivery into a variety of cell types besides protoplasts by entry through plasmodesmata, (5) delivery of intact small organelles. Realization of these advantages calls for the construction of efficient liposomes, for appropriate fusion conditions and for an understanding of the nature of liposome-cell interactions. Various characteristics and techniques of the liposome-cell system are described (mode of delivery, liposome types and composition, and means of promoting delivery of liposome contents). Data of liposome-mediated delivery of various macromolecules into plant cells, with special reference to protoplasts, calli and pollen are reviewed. This includes data obtained by the use of fluorescent probes, radioactive-labelled DNA, viral nucleic acids and expression of plasmid-DNA. Structure and characteristics of plant surfaces and plasmodesmata are discussed with respect to DNA entry. It is suggested that liposome-mediated gene delivery into plant cells, and not only protoplasts, will be advantageous in certain specific tissues and situations.     

Regeneration of intergeneric somatic hybrids by protoplast fusion betweenOnobrychis viciaefolia andMedicago sativa

Protoplast fusion was induced between sainfoin and alfalfa by an improved polyethyleneglycol (PEG) method. The intergeneric somatic calluses were selected based on complementation of hydroxyproline-resistance of sainfoin and hormone autonomy growth of alfalfa transformation cell line. 17 somatic hybrid plantlets were regenerated. PEG could induce the tight agglutination of protoplasts. During diluting and washing process, cyclization of the linked membrane and formation of vesicle-like structures were observed, resulting in protoplast fusion. 5%–10% glycerol supplemented in the fusion inducing solution markedly increased the frequency of heterogeneous fusion. Better fusion results were obtained when mixed protoplast suspension was dripped in petri dishes in which PEG solution was previously placed. Chromosome number of regenerated hybrid buds varied from 30 to 60. The genome of hybrids included the small chromosome from sainfoin and two chromosomes with two clear constrictions from alfalfa. The hybridity of obtained hybrid calluses was confirmed by their isayrne banding patterns and their nopaline synthetase activity.     

Regeneration of intergeneric somatic hybrids by protoplast fusion between Onobrychis viciaefolia and Medicago sativa

Protoplast fusion was induced between sainfoin and alfalfa by an improved polyethyleneglycol (PEG) method. The intergeneric somatic calluses were selected based on complementation of hydroxyproline-resistance of sainfoin and hormone autonomy growth of alfalfa transformation cell line. 17 somatic hybrid plantlets were regenerat-ed. PEG could induce the tight agglutination of protoplasts. During diluting and washing process, cyclization of the linked membrane and formation of vesicle-like structures were observed, resulting in protoplast fusion. 5%-10% glycerol supplemented in the fusion inducing solution markedly increased the frequency of heterogeneous fusion. Better fusion results were obtained when mixed protoplast suspension was dripped in petri dishes in which PEG solution was previously placed. Chromosome number of regenerated hybrid buds varied from 30 to 60. The genome of hybrids in-cluded the small chromosome from sainfoin and two chromosomes with two clear constrictions from alfalfa. The hybrid     

Peg-mediated fusion of Rubus idaeus (raspberry) and R. fruticosus (blackberry) protoplasts,selection and characterisation of callus lines

ABSTRACT

Cell suspension-derived protoplasts of two cultivated Rubus species, Rubus idaeus-raspberry (subgenus Idaeobatus 2n=2x=14) and R. fruticosus-blackberry (a complex species aggregate within the subgenus Eubatus, 2n=4x=28) were fused using different polyethylene glycol (PEG) fusion treatments. Duration of PEG treatment and choice of culture media influenced the rate of cell divisions and plating efficiency. Colony formation was initiated on solid media for the production of several callus lines. Cytological analyses were performed on selected callus lines with hexaploid chromosome number. Two hexaploid fusion callus lines, selected for their homogeneity in growth and ploidy level, were examined by molecular cytogenetic techniques of fluorescent in situ hybridisation (FISH) and genomic in situ hybridisation (GISH). GISH revealed the presence of the heterokaryon within the fusion callus lines. FISH probed with ribosomal DNA (rDNA) showed variable numbers and sizes of loci. Aberrant distribution and condensation of rDNA were common in interphase cells. FISH results suggest that large karyotype rearrangements occurred, including variation in chromosome number and rDNA loci translocations. Attempts to regenerate plants from the hexaploid callus lines following several applications of plant growth regulator combinations were unsuccessful. This may be attributed to the genomic reorganisation and instability of these long-term fusion callus cultures.     

A novel method for monitoring protoplast fusion

Summary Two fluorescent compounds, scopoletin and carboxyfluorescein, have been used to label both tissue culture and leaf mesophyll cells and protoplasts. The compounds localized within the vacuoles of cells in approximately 15 hours. They remained in the vacuole during cell wall digestion, and fluorescence was observable for several hours after protoplast release. A one day pulse of these fluorescent labels had no deleterious effect on the growth of cells or protoplasts. When morphologically indistinguishable protoplasts were labeled and treated with polyethylene glycol, multicolored fluorescent fusion products were observable. These fluorescent labels provide a convenient method for selection of heterokaryon fusion products of whole plant and tissue culture cell protoplasts.     

Studies on the mechanism of polyethylene glycol-mediated cell fusion using fluorescent membrane and cytoplasmic probes

The mechanism by which polyethylene glycol (PEG) mediates cell fusion has been studied by examining the movements of membrane lipids and proteins, as well as cytoplasmic markers, from erythrocytes to monolayers of cultured cells to which they have been fused. Fluorescence and freeze-fracture electron microscopy and fluorescence recovery after photobleaching have yielded the following results: (a) In the presence of both fusogenic and nonfusogenic PEG membranes are brought together at closely apposed contact regions. (b) Fluorescent lipid probes quickly spread from the membranes of erythrocytes to cultured cells in the presence of both fusogenic and nonfusogenic PEG. (c) Proteins of the erythrocyte membranes were never observed to diffuse into the cultured cell membrane. (d) Water-soluble proteins did not diffuse from the erythrocyte interior into the target cell cytoplasm until the PEG was removed. These data suggest that the coordinate action of two distinct components is necessary for fusion as mediated by PEG. Presumably, the polymer itself promotes close apposition of the adjacent cell membranes but the fusion stimulus is provided by the additives contained in commercial PEG.     

Fluorescence measurements of fusion between human erythrocytes induced by poly(ethylene glycol).

The kinetics of poly(ethylene glycol) (PEG)-induced fusion between intact human erythrocytes was continuously monitored by a fluorescence lipid mixing method, utilizing the dequenching of the fluorescence probe, 1-oleoyl-2-[12-[(7-nitro-2,1,3-benzoxadiazol-4-yl)amino]dodecanoyl ] phosphatidylcholine (C12-NBD-PC). The steady-state fluorescence intensity was detected from the surface of cells in a monolayer on an alcian blue-coated glass coverslip. The relief of fluorescence self-quenching after fusion between C12-NBD-PC labeled and unlabeled intact erythrocytes was measured. The extent of fluorescence dequenching was normalized based on the measured concentration of probes in membranes, the projected partial dequenching due both to dilution by intercellular fusion, and the dilution between the inner and outer leaflets of membranes (flip-flop). There was no significant increase in fluorescence intensity during PEG treatment of 5 min, at 4 degrees C. Intensity increased immediately after the dilution of PEG, and reached saturation in 30 min. The efficiency of fusion increased with the increasing of PEG concentrations. Only 4% enhancement of saturated relative fluorescence intensity was detected in 25 wt% PEG-induced cell fusion; 23% enhancement in 30 wt%; and 66% enhancement in 35 wt%. The transfer of fluorescent probes between membrane bilayer leaflets (flip-flop) was also monitored during the fusion process. Flip-flop was monitored in confluent monolayers as well as in isolated cells. There was no significant spontaneous flip-flop within 30 min of dilution. The relative fluorescence intensity enhancement contributed by the dilution of probes between fused labeled and unlabeled cells (at a 1:1 ratio) was found to account for only 39% of the observed final dequenching, whereas the contribution by flip-flop associated with cell fusion was found to account for 9%, and flip-flop without fusion contributed approximately 18%. A portion of the flip-flop is a consequence of hemolysis. Therefore, fluorescence dequenching measurements of fusion of whole cells must be interpreted with caution.     

Studies on Parainfluenza Virus Infections among Infants and Children in Sendai

A cell line sensitive enough for the recovery of all parainfluenza viruses and free of simian virus contamination frequently occurring in monkey kidney cells was sought. The VERO cell obtained from African monkey kidney was found suitable for the initial isolation of types 1, 2 and 3 parainfluenza viruses, although the cells did not always allow the successive transfer. Mixed cultures of VERO and HEp-2 cells were also useful in the recovery of various respiratory viruses including parainfluenza viruses. The characteristics of hemagglutinins of parainfluenza viruses were examined, and type 2 parainfluenza and SV5 viruses agglutinated both guinea pig and green monkey erythrocytes at 36 C, whereas types 1 and 3 parainfluenza viruses agglutinated only guinea pig erythrocytes. Thus parainfluenza viruses were divided into two groups by the presence or absence of hemagglutinins for green monkey erythrocytes. Identification of these parainfluenza isolates, employing HI microtechnique was simple and reliable, even with the first passage harvest, when guinea pig erythrocytes were used and the test read at 36 C. Specific standard antisera for these parainfluenza viruses were prepared by immunizing chickens intravenously and bleeding within a short period. These type-specific antisera were useful for the identification of parainfluenza isolates by HI test.