Cryopreservation of leucocytes of channel catfish for subsequent cytogenetic analysis

Channel catfish leucocytes cryopreserved with glycerol or dimethyl sulphoxide (DMSO) had significantly higher ( P <0.05) viability and recovery rates than did cells cryopreserved with methanol. After 7 days of frozen storage, a 24 to 27% reduction of viability was observed for cells cryopreserved with glycerol; a 25 to 43% reduction for cells frozen with DMSO, and a 67 to 100% reduction for cells frozen with methanol. The concentration of cryoprotectants affected the viability of cryopreserved cells significantly ( p <0.05). The viability reduction was 36% for cells frozen with 5% of cryoprotectants, 30% for cells frozen with 10% of cryoprotectants, and 49% for cells frozen with 15% of cryoprotectants. The viability of cells frozen at the slower rate (-2.7°C min⁻¹) was significantly higher ( p <0.05) than that of cells frozen at the faster rate (-45°C min⁻¹). Best results were obtained for cells cryopreserved with 10% of glycerol or DMSO and frozen at the slower rate. The chromosomes prepared from cells cryopreserved using this procedure were identical to those prepared from fresh cells, and to those reported in the literature for channel Catfish.     

Effects of cryoprotective agents and freezing on abdominal ganglia of aplysia.

Isolated Aplysia depilans abdominal ganglia were exposed to 10 and 20% dimethylsulphoxide (Me₂SO) or glycerol at room temperature. Results indicate that Me₂SO induced an irreversible depression of extracellularly recorded ganglionic spontaneous spike generation while glycerol proved to be non-toxic. Intracellular recordings of individual nerve cell spontaneous activity during exposure to the cryoprotective agents were obtained in a few preliminary experiments. Both Me₂SO and glycerol induced a decrement in the nerve cell membrane potential. The main difference between the action of the two cryoprotectants was in the rate and the amount of depolarization, both being higher in the case of Me₂SO exposure.The Aplysia abdominal ganglia were frozen to ?20 °C and to ?196 °C. In all but one ganglia frozen to ?20 °C, including the preparations frozen in the absence of any cryoprotective agent, functional recovery was obtained after thawing. However, only the application of 20% glycerol improved the recovery of the preparations to a significant extent. In ganglia protected with 20% glycerol a full recovery of the action potential amplitude and frequency was obtained. In ganglia protected with 20% glycerol intracellular recordings of individual nerve cells demonstrated spontaneous spike activities before freezing and after thawing.No functional recovery was observed in ganglia frozen to ?196 °C in the absence of a cryoprotective agent. While in most preparations frozen with a cryoprotectant spontaneously generated spikes were recorded after thawing. However, the action potential frequency and amplitude were significantly depressed. It is concluded that further investigation is required to improve the freezing technique so that Aplysia ganglia may be preserved at low temperatures. It is suggested that intracellular exploration of the effects of cryoprotectants and freezing on identified nerve cell membrane may prove to be useful in future investigations.     

Biochemistry of natural freeze tolerance in animals: molecular adaptations and applications to cryopreservation

For a wide variety of animals, winter survival in cold climates includes the ability to tolerate ice formation in extracellular body fluids. Among terrestrially hibernating vertebrates, freeze tolerance has been documented for five amphibian and two reptile species. These species may survive for days or weeks in a frozen state with no breathing and no heart beat, and with up to 65% of total body water as extracellular ice. The biochemical mechanisms involved in natural freeze tolerance include (i) the regulation of extracellular ice formation by proteinaceous ice nucleators in body fluids, (ii) the accumulation of high concentrations of low molecular weight carbohydrates as cryoprotectants to regulate cell volume reduction during freezing and stabilize macromolecular structure, and (iii) a well-developed ischemia tolerance that supports the survival of individual organs while frozen. The present article focuses on recent advances in our understanding of the biochemistry of natural freeze tolerance in lower vertebrates and the application of these studies to the improvement of cryopreservation technology for transplantable mammalian organs.     

Conventional freezing vs. cryoprotectant-free vitrification of epididymal (MESA) and testicular (TESE) spermatozoa: Three live births

Data of cryoprotectant-free vitrification of human testicular and epididymal spermatozoa are limited. The aim of this investigation was to compare two aseptic technologies of TESE (testicular) and MESA (epididymal) spermatozoa cryopreservation: standard conventional freezing with the use of cryoprotectants and cryoprotectant-free vitrification. Sperm motility, capacitation-like changes, acrosome reaction and the mitochondrial membrane potential of frozen (5% glycerol, −10 °C/min) and vitrified (Human Tubal Fluid + 1% Human Serum Albumin+0.25 M sucrose, plunging into liquid nitrogen of capillaries with spermatozoa isolated from liquid nitrogen (aseptic method) were compared. The quality of the cryoprotectant-free vitrified MESA- and TESE-spermatozoa was higher than that of spermatozoa conventionally frozen with permeable cryoprotectants. Intracellular sperm injection (ICSI) was performed with vitrified spermatozoa. We report the birth of three healthy babies from two women following ICSI with motile MESA- and TESE-spermatozoa vitrified without cryoprotectants. This is the first report of full-term pregnancies and babies born after ICSI with epididymal and testicular spermatozoa vitrified without cryoprotectants. In conclusion, cryoprotectant-free vitrification can be successfully applied for the cryopreservation of motile TESE- and MESA-spermatozoa.     

Cooling and freezing damage platelet membrane integrity.

Cytoskeletal rearrangements and a membrane lipid phase transition (liquid crystalline to gel) occur in platelets on cooling from 23 to 4 degrees C. A consequence of these structural alterations is irreversible cellular damage. We investigated whether platelet membrane integrity could be preserved by (a) previously studied combinations of a calcium chelator (EGTA) and microfilament stabilizer (cytochalasin B) with apparent benefit in protecting platelets from cooling injury or (b) agents of known benefit in protecting membranes and proteins from freezing injury. Platelet function and activation before and after freezing or cooling were measured by agglutination with ristocetin, aggregation with thrombin or ADP, platelet-induced clot retraction (PICR), and expression of P-selectin. Platelets were loaded with 10 nM fluorescein diacetate. After freezing or cooling, the preparations were centrifuged and the supernatant was measured for fluorescein. For cooling experiments, fresh platelets were chilled at 4 degrees C for 1 to 21 days with or without the combination of 80 microM EGTA/AM and 2 microM cytochalasin B (EGTA/AM-CytoB) and then warmed rapidly at 37 degrees C. For freezing experiments, 5% dimethyl sulfoxide (Me2SO) or 5 mM glycerol were added to fresh platelets. The preparations were then frozen at -1 degrees C/min to -70 degrees C and then thawed rapidly at 37 degrees C. Platelet membrane integrity, as measured by supernatant levels of fluorescein, correlated inversely with platelet function. Chilling platelets at 4 degrees C with EGTA/AM-CytoB showed a gradual loss of membrane integrity, with maximum loss reached on day 7. The loss of membrane integrity preceded complete loss of function as demonstrated by PICR. In contrast, platelets chilled without these agents had complete loss of membrane integrity and function after 1 day of storage. Freezing platelets in Me2SO resulted in far less release of fluorescein than did freezing with or without other cryoprotectants (P < 0.001). This result correlated with enhanced function as demonstrated by PICR and supports earlier observations that Me2SO protects platelet membranes from freezing injury. Release of fluorescein into the surrounding medium reflected loss of membrane integrity and function in both cooled and frozen platelets. Membrane cytoskeletal rearrangements are linked to membrane changes during storage. These results may be generally applicable to the study of platelet storage.     

Differences in semen freezability and intracellular ATP content between the rooster (Gallus gallus domesticus) and the Barbary partridge (Alectoris barbara)

This study aimed to compare viability, ATP content, and DNA integrity of rooster (Gallus gallus domesticus) and Barbary partridge (Alectoris barbara) fresh and frozen spermatozoa in order to identify factors possibly related to differences in semen freezability. Ejaculates were obtained from March to May by the abdominal massage method from 3 adult roosters and 12 adult Barbary partridges. Semen was frozen with different cryoprotectants using Lake's diluents as a base medium: 1) glycerol 11%; 2) glycerol 11% and trehalose 70 mmol/L; 3) dimethylacetamide (DMA) 6%; 4) DMA 6% and trehalose 70 mmol/L. Both fresh and frozen semen showed a lower viability and higher intracellular ATP concentrations in the Barbary partridge compared with the rooster (P < 0.05). In the Barbary partridge, semen viability after thawing did not differ among the 4 media used, but glycerol showed positive effects in avoiding a significant loss of ATP after thawing, compared with DMA containing media (P < 0.05). On the other hand, in the rooster a higher viability was recorded when semen was frozen in glycerol containing media compared to DMA (P < 0.0001), while ATP values significantly decreased after thawing (P < 0.05) without showing any differences among the semen frozen in the 4 different media. DNA integrity, as evaluated by the comet assay, was assessed only in frozen semen. In the Barbary partridge, mean scored parameter did not differ significantly among semen frozen in the 4 different media. In the rooster DNA fragmentation was higher in DMA ctr medium compared with the other media and with values found in Barbary partridge semen frozen in the same medium (P < 0.001). In both species, the addition of trehalose did not show any positive effects on viability, ATP levels and DNA integrity after thawing.In conclusion, species-related differences in semen features exist between the rooster and the Barbary partridge and the wide variation observed in ATP levels may account for differences in semen freezabililty between the two species.     

Comparison among different cryoprotectants for cryopreservation of epididymal sperm from agouti (Dasyprocta leporina)

We verify the effects of different cryoprotectants on the cryopreservation of agouti (Dasyprocta leporina) epididymal sperm. We used 16 pairs of testes–epididymis complexes of sexually mature animals. We immediately evaluated epididymal sperm obtained by retrograde flushing for concentration, motility, vigor, viability, osmotic response, and morphology. Samples were extended in a coconut water extender plus 20% egg yolk, containing glycerol, ethylene glycol, dimethylsulfoxide – DMSO, or dimethylformamide. Finally, samples were stored in 0.25 mL straws, frozen in liquid nitrogen, and thawed after one week, being reevaluated and assessed for membrane integrity using fluorescent probes. The higher values for postthawing sperm motility, vigor, and membrane integrity were achieved by the usage of glycerol, when compared to ethylene glycol and dimethylformamide (P < 0.05); however, no differences were found between glycerol and DMSO (P > 0.05). All cryoprotectants provided a similar effect on the preservation of sperm morphology, osmotic response, and viability (P > 0.05). Therefore, here onwards, there was testing of glycerol and DMSO at 3 and 6% concentrations using the same freezing–thawing protocol reported previously. As the main result, DMSO at 6% concentration provided a decrease in sperm parameters, as well as in the chromatin integrity and in the binding capability of sperm. In conclusion, glycerol 3 or 6% and DMSO 3% can be used as alternative cryoprotectants for agouti epididymal sperm cryopreservation.     

Fertility of spermatozoa cryopreserved with 2% acetamide or glycerol through artificial insemination in the Japanese white rabbit.

The rabbit is considered to be a valuable laboratory animal. We compared 2% acetamide and glycerol as cryoprotectants in egg-yolk diluent for ejaculated Japanese white rabbit spermatozoa to improve sperm cryopreservation methods. Fertility through artificial insemination, forward progressive motility and plasma membrane integrity of the post-thaw spermatozoa were examined. The rates of forward progressive motility and plasma membrane integrity of the spermatozoa frozen with acetamide (27.1 +/- 8.3% and 24.5 +/- 6.5%) were significantly (P < 0.05) higher than those of the spermatozoa frozen with glycerol (16.3 +/- 10.9% and 14.3 +/- 7.6%). Though there was no significant difference in the kindling rates, the litter size of females inseminated with spermatozoa frozen with acetamide (6.0 +/- 1.1) were significantly (P < 0.05) higher than those of spermatozoa frozen with glycerol (3.0 +/- 0.4). The results indicate that 2% acetamide has a higher cryoprotective effect than 2% glycerol for sperm cryopreservation in the Japanese white rabbit.     

Cryoprotectant effect of trehalose and low-density lipoprotein in extenders for frozen ram semen

This study tested trehalose and low-density lipoprotein (LDL) as cryoprotectants in extenders for frozen ram semen. In the first experiment, the extenders were Tris, with 20% egg yolk (E1-1); E1-1 with 5% glycerol (E1-2); E1-1 with 100 mM trehalose (E1-3); and E1-1 with 100 mM trehalose and 5% glycerol (E1-4). Sperm motility and membrane integrity of the E1-2, E1-3 and E1-4 extenders were greater than for E1-1 (P < 0.05), but acrosome integrity following cryopreservation did not differ. In the second experiment, the extenders were Tris, with 20% egg yolk and 100 mM trehalose (E2-1); Tris with 8% LDL and 5% glycerol (E2-2); Tris with 8% LDL and 100 mM trehalose (E2-3); and Tris with 8% LDL, 100 mM trehalose and 5% glycerol (E2-4). Sperm membrane integrity was lowest for the E2-1 extender (P < 0.05), but similar for extenders including LDL. Sperm motility post-thawing was highest for E2-2 and E2-3 extenders (P < 0.05), but acrosome integrity did not differ. Thus, extenders including trehalose and LDL as cryoprotectants recorded a post-thawing ram sperm quality similar to that achieved when using conventional cryoprotectants.     

Drosophila Lipophorin Receptors Recruit the Lipoprotein LTP to the Plasma Membrane to Mediate Lipid Uptake

Lipophorin, the main Drosophila lipoprotein, circulates in the hemolymph transporting lipids between organs following routes that must adapt to changing physiological requirements. Lipophorin receptors expressed in developmentally dynamic patterns in tissues such as imaginal discs, oenocytes and ovaries control the timing and tissular distribution of lipid uptake. Using an affinity purification strategy, we identified a novel ligand for the lipophorin receptors, the circulating lipoprotein Lipid Transfer Particle (LTP). We show that specific isoforms of the lipophorin receptors mediate the extracellular accumulation of LTP in imaginal discs and ovaries. The interaction requires the LA-1 module in the lipophorin receptors and is strengthened by a contiguous region of 16 conserved amino acids. Lipophorin receptor variants that do not interact with LTP cannot mediate lipid uptake, revealing an essential role of LTP in the process. In addition, we show that lipophorin associates with the lipophorin receptors and with the extracellular matrix through weak interactions. However, during lipophorin receptor-mediated lipid uptake, LTP is required for a transient stabilization of lipophorin in the basolateral plasma membrane of imaginal disc cells. Together, our data suggests a molecular mechanism by which the lipophorin receptors tether LTP to the plasma membrane in lipid acceptor tissues. LTP would interact with lipophorin particles adsorbed to the extracellular matrix and with the plasma membrane, catalyzing the exchange of lipids between them.     

Effect of some permeating cryoprotectants on CASA motility results in cryopreserved bull spermatozoa

Computer-assisted sperm analyzers (CASA) have become the standard tool for evaluating sperm motility because they provide objective results for thousands of mammalian spermatozoa. Mammalian spermatozoa experience osmotic stress when the glycerol is added to the cells prior to freezing and removal from the cells after thawing. In order to minimize osmotic damage, cryoprotectants having lower molecular weights and greater membrane permeability than glycerol, were evaluated to determine their effectiveness for cryopreserving bull spermatozoa. The aim of this study was to compare the cryopreservation effects of low molecular weight cryoprotectants (ethylene glycol and methanol) to glycerol, on post-thaw CASA sperm parameters. Bull semen was diluted with tris-egg yolk extender containing 3% glycerol, 3, 2 and 1% ethylene glycol or 3, 2 and 1% methanol. Bull semen was frozen in 0.5 straws. Bull spermatozoa exhibited higher percentages (p<0.01) for total (Mot, 72.4%) and progressively (Prog, 29.5%) motilities when frozen in extender containing 3% glycerol compared to 3, 2 and 1% ethylene glycol or 3, 2 and 1% methanol. In conclusion, no advantages were found in using ethylene glycol or methanol to replace glycerol in bull semen freezing. Glycerol provided the best sperm characteristics for bull spermatozoa after freezing and thawing. The possibility of using ethylene glycol or methanol as permeating cryoprotectants for bull semen deserves further investigation, and these cryoprotectants should also be evaluated in extenders that contain disaccharides or cholesterol.     

Cryopreservation of European eel (Anguilla anguilla) sperm using different extenders and cryoprotectants. Short communication

Experiments were carried out on the sperm cryopreservation of artificially induced eels. The effects of several extenders and two cryoprotectants on the motility of spermatozoa were investigated. The highest post-thaw motility was observed with the combination of Tanaka's extender and DMSO as cryoprotectant. Further dilution after thawing resulted in complete loss of motility in samples frozen in presence of DMSO while sperm frozen with methanol as cryoprotectant retained its motility after further dilution.     

Comparisons of glucose,sucrose, and dimethyl sulfoxide as cryoprotective agents for Babesia rodhaini, with estimates of survival rates

Comparisons were made between glucose, sucrose, and dimethyl sulfoxide (DMSO) as cryoprotective agents for the hemoprotozoan parasite, Babesia rodhaini, using infectivity for mice as the criterion of survival. Concentrations of the cryoprotectants tested were from 0.1 to 0.5 M for the sugars, and 1.5 to 2.5 M for DMSO. Glucose and sucrose were comparable as cryoprotectants, although glucose reduced infectivity of the parasites slightly more than did sucrose at above-freezing temperatures. When sucrose and DMSO were compared for cryoprotection during cooling to ?196 °C at nominal rates of 5, 100, and 500 °C/min, parasite survival varied with the type and concentration of cryoprotectant, but was higher in blood containing DMSO at all three cooling rates. The percentages of parasites that survived cooling at 100 °C/min and frozen storage in the presence of DMSO ranged from 20 to 36%.     

Effect of glycerol and dimethyl sulfoxide on cryopreservation of rhesus monkey (Macaca mulatta) sperm

Glycerol and dimethyl sulfoxide (DMSO) are widely used as penetrating cryoprotectants in the freezing of sperm, and various concentrations are applied in different species and laboratories. The present study aimed to examine the effect of these two cryoprotectants at different concentrations (2%, 5%, 10%, and 15% glycerol or DMSO) on rhesus monkey sperm cryopreservation. The results showed that the highest recovery of post-thaw sperm motility, and plasma membrane and acrosome integrity was achieved when the sperm was frozen with 5% glycerol. Spermatozoa cryopreserved with 15% DMSO showed the lowest post-thaw sperm motility, and spermatozoa cryopreserved with 15% glycerol and 15% DMSO showed the lowest plasma membrane integrity among the eight groups. The results achieved with 5% glycerol were significantly better for all parameters than those obtained with 5% DMSO. The functional cryosurvival of sperm frozen with 5% glycerol was further assessed by in vitro fertilization (IVF). Overall, 85.7% of the oocytes were successfully fertilized, and 51.4% and 5.7% of the resulting zygotes developed into morulae and blastocysts, respectively. The results indicate that the type and concentration of the penetrating cryoprotectant used can greatly affect the survival of rhesus monkey sperm after it is frozen and thawed. The suitable glycerol level for rhesus monkey sperm freezing is 5%, and DMSO is not suitable for rhesus monkey sperm cryopreservation.     

Infective Juveniles of the Entomopathogenic Nematode,Steinernema feltiae Produce Cryoprotectants in Response to Freezing and Cold Acclimation

Steinernema feltiae is a moderately freeze-tolerant entomopathogenic nematode which survives intracellular freezing. We have detected by gas chromatography that infective juveniles of S. feltiae produce cryoprotectants in response to cold acclimation and to freezing. Since the survival of this nematode varies with temperature, we analyzed their cryoprotectant profiles under different acclimation and freezing regimes. The principal cryoprotectants detected were trehalose and glycerol with glucose being the minor component. The amount of cryoprotectants varied with the temperature and duration of exposure. Trehalose was accumulated in higher concentrations when nematodes were acclimated at 5°C for two weeks whereas glycerol level decreased from that of the non-acclimated controls. Nematodes were seeded with a small ice crystal and held at -1°C, a regime that does not produce freezing of the nematodes but their bodies lose water to the surrounding ice (cryoprotective dehydration). This increased the levels of both trehalose and glycerol, with glycerol reaching a higher concentration than trehalose. Nematodes frozen at -3°C, a regime that produces freezing of the nematodes and results in intracellular ice formation, had elevated glycerol levels while trehalose levels did not change. Steinernema feltiae thus has two strategies of cryoprotectant accumulation: one is an acclimation response to low temperature when the body fluids are in a cooled or supercooled state and the infective juveniles produce trehalose before freezing. During this process a portion of the glycerol is converted to trehalose. The second strategy is a rapid response to freezing which induces the production of glycerol but trehalose levels do not change. These low molecular weight compounds are surmised to act as cryoprotectants for this species and to play an important role in its freezing tolerance.     

Comparing ethylene glycol with glycerol and with or without dithiothreitol and sucrose for cryopreservation of bull semen in egg-yolk containing extenders

There are few studies performed for investigating the roles of different ratio and cryoprotectants with dithiothreitol or sucrose on sperm motility characteristics and antioxidant capacities of post-thawed bull spermatozoa. The objectives of this study were to compare glycerol (G) and ethylene glycol (EG) at different concentrations as cryoprotectants and dithiothreitol (D) or sucrose (S) (with/without) as antioxidants in Tris extender for cryopreservation of bull semen. Twenty-four ejaculates obtained from three bulls were included in the study. Each ejaculate was split into four equal aliquots and diluted using both of the Tris extenders with glycerol (5% or 7%) or ethylene glycol (3% or 5%). After that, each extenders were split into three equal aliquots and diluted using both of the dithiothreitol 5 mM or sucrose 25 mM, and control (without additives) was cooled to 4 °C and frozen in 0.25-ml French straws. when compared to control, different doses cryoprotectants and antioxidants addition no significantly increased the percentages of post-thaw sperm progressive and motitilities, acrosome abnormality and plasma membrane integrity (P > 0.05). However, EG3 + S yielded the greatest percentages of the total abnormality (P < 0.05). As regard to antioxidant activities G7 and EG5 led to lowest MDA activity with or without D or S but, these results were not supported to the GPx activity (P < 0.01). The sperm motion characteristics such as VAP, VCL, ALH and BCF gave significantly different results (P < 0.05). When compared the DNA integrity, different doses cryoprotectants without antioxidants addition significantly increased the percentages of the tail intensity and tail moment (P < 0.05). There were no significant differences observed in non-return rates among all treatment groups (P > 0.05).     

Effects of lyophilization on the stability of bacteriophages against different serogroups of Shiga toxin-producing Escherichia coli

Lyophilization is commonly used to effectively preserve the stability of bacteriophages (phages) in long-term storage. However, information regarding the lyophilization of phages specific to Shiga toxin-producing Escherichia coli (STEC) strains is scarce. The objective of this study was to determine the effects of lyophilization with different cryoprotectants (sucrose and trehalose) and concentrations (0.1 M and 0.5 M) on the stability of seven lytic phages specific to STEC O157 and top 6 non-O157 strains during 6-month storage at −80 °C. The titers of lyophilized phages specific to STEC O26 (S1 O26) and STEC O121 (Pr121lvw) did not exhibit significant reduction after 6-month storage regardless of the use of cryoprotectants. Phages lytic against STEC O103 (Ro103C3lw) and STEC O145 (Ro145clw) with 0.1 M sucrose retained similar titers after lyophilization and frozen storage for 6 months (P > 0.05). Despite subtle differences, these results indicated that most of the selected phages had similar titer retention with the same cryoprotectants. Additionally, lytic activities of the phages against their primary hosts were not affected after lyophilization and 6-month frozen storage. Moreover, no detectable damage was observed on the lyophilized phage structures. These findings provide valuable insight into the use of lyophilization to preserve phages lytic against STEC strains.     

Lipid exchange and transfer between biological lipid-protein structures

The dynamic state of membrane and lipoprotein lipids is all the more impressive when the complexity of lipoprotein and membrane structure is considered. For as long as such a ubiquitous and easily demonstrable process has been studied, the mechanism(s) of lipid exchange is still unknown. Is a direct contact between lipoproteins and membranes required for lipid exchange, or are molecules expelled from lipid-protein complexes to spend a transient existence in the aqueous environment before returning to their donor or being accomodated in another complex? Although recent studies suggest the certain proteins such as the phospholipid exchange proteins can exert some vectoral and selective control over exchange reactions, the exchange of lipids, as studied under most conditionsin vitro, seems to be a random occurrence and a purely physicochemical event. Ifin vitro studies are indeed reflective of the processesin vivo, the lipid exchange activity in a cell can likely be depicted as shown in Figure 18.     

Membrane Dynamics at the Nuclear Exchange Junction during Early Mating (One to Four Hours) in the Ciliate Tetrahymena thermophila

Using serial-section transmission electron microscopy and three-dimensional (3D) electron tomography, we characterized membrane dynamics that accompany the construction of a nuclear exchange junction between mating cells in the ciliate Tetrahymena thermophila. Our methods revealed a number of previously unknown features. (i) Membrane fusion is initiated by the extension of hundreds of 50-nm-diameter protrusions from the plasma membrane. These protrusions extend from both mating cells across the intercellular space to fuse with membrane of the mating partner. (ii) During this process, small membrane-bound vesicles or tubules are shed from the plasma membrane and into the extracellular space within the junction. The resultant vesicle-filled pockets within the extracellular space are referred to as junction lumens. (iii) As junction lumens fill with extracellular microvesicles and swell, the plasma membrane limiting these swellings undergoes another deformation, pinching off vesicle-filled vacuoles into the cytoplasm (reclamation). (iv) These structures (resembling multivesicular bodies) seem to associate with autophagosomes abundant near the exchange junction. We propose a model characterizing the membrane-remodeling events that establish cytoplasmic continuity between mating Tetrahymena cells. We also discuss the possible role of nonvesicular lipid transport in conditioning the exchange junction lipid environment. Finally, we raise the possibility of an intercellular signaling mechanism involving microvesicle shedding and uptake.     

Use of β-galactosidase liposome model as a novel method to screen freeze-drying cryoprotectants

This study developed a novel method of screening cryoprotectants used to improve the survivability of lyophilized Lactobacillus helveticus. To develop a liposome encapsulated β-galactosidase (β-gal) as a cell membrane model, the β-gal liposome was characterized in terms of mean size, poly dispersity index, zeta potential, along with transmission electron microscopy. 800 W of ultrasonic power and 10 min of sonication time were the optimal experimental conditions to obtain the desirable β-gal liposome. Subsequently, different cryoprotectants were mixed with the β-gal liposome during freeze-drying. After freeze-drying, liposomes were hydrolized, and the protective effect of cryoprotectants was assessed as the release rate of encapsulated β-gal. The lowest release rate of β-gal was obtained using 10 mg/100 ml trehalose and 0.2 mg/100 ml hyaluronic acid.