Proceedings: Repair of freezing injury in mammalian cells grown in serial culture

Chinese hamster cells in culture (Clone A) can survive freezing and thawing in Eagle's medium, without serum or cryoprotective agent, provided they are placed in conditioned medium immediately on thawing. The damage produced by freezing, which is repaired in conditioned medium, is associated with the cell surface and involves carbohydrate and phospholipid.     

Responsiveness of mouse calvaria to parathyroid hormone after explant cryopreservation: 45Ca release in vitro

Newborn mouse calvaria prelabeled with 45Ca and cryopreserved at -196 degrees C in serum-free medium containing dimethylsulfoxide were compared to unpreserved explants for response to parathyroid hormone during subsequent culture. After short-term cryopreservation followed by rapid thawing, the viable explants continued to release 45Ca to the culture medium but additions of parathyroid hormone to the medium did not cause increased bone resorption. The data suggest that cryopreservation and thawing impairs mechanisms responsible for parathyroid hormone action on bone cells.     

Cryopreservation of mouse oocytes using a medium with low sodium content: effect of plunge temperature

The effect of various combinations of plunge temperature and thawing protocol on the survival and viability of mouse oocytes was examined. The oocytes were frozen either in a standard freezing medium (ETFM, embryo transfer freezing medium) or in a low-sodium, choline-based freezing medium (CJ2), with 1.5 M 1,2-propanediol and 0.1 M sucrose, and using a conventional slow cooling method. The criteria used to assess survival were morphological state after thawing (intact or lysed), ability to become fertilized, and ability to develop to the two-cell, morula, and blastocyst stage in vitro. Oocytes frozen in CJ2 and plunged into liquid nitrogen (LN(2)) from -10, -20, or -33 degrees C remained intact and developed to the blastocyst stage at significantly higher rates than oocytes frozen in ETFM. For oocytes plunged into LN(2) from -33 degrees C, very rapid thawing (10 s in 30 degrees C water) was more detrimental than rapid or slow thawing (holding in air at room temperature for 10 or 30 s, respectively, prior to submersion in water at 30 degrees C for 10 s). By contrast, oocytes plunged into LN(2) from -10 or -20 degrees C survived better when thawing was very rapid or rapid than when thawing was slow. With the current protocol CJ2 was very effective over a wide range of plunge temperatures (-20 to -33 degrees C), although the optimal thawing protocol depended on the particular plunge temperature. Over 90% of oocytes surviving after slow cooling in CJ2 to -33 degrees C could be plunged to -196 degrees C with little or no further damage.     

Production of Ficoll, Percoll, and albumin gradients by the freeze-thaw method.

Ficoll, sucrose, albumin, and Percoll, a modified colloidal silica centrifugation medium, all form density gradients upon freezing and thawing. The data suggest that any density gradient material will form gradients upon freezing and thawing, provided the material is stable to freezing.     

Assessment of two thawing processes of cryopreserved human sperm in pellets

In this study, we evaluated the effects of the thawing methodology on sperm function after cryopreservation in pellets. We compared the use of two thawing procedures: method (1) maintaining pellet for 10 min in air at room temperature, then another 10-min period in air at 37 °C followed by dilution in a thawing medium; and method (2) immersing the pellets directly in thawing medium at 37 °C for 20 min. This procedure leads to a higher rate of temperature increase and a dilution of the glycerol present in the freezing medium. We analyzed the effect of the thawing procedure on sperm motility, viability, membrane lipid packing disorder, acrosome status, reactive oxygen species (ROS) level and sperm chromatin condensation. This study revealed a positive effect of the M2 thawing methodology on sperm parameters. The percentage of spermatozoa with fast-linear movement is increased (M1: 17.26% vs. M2: 28.05%, p < 0.01), with higher viability (M1: 37.81% vs. M2: 40.15%, p < 0.01) and less acrosome damage (M1: 40.44% vs. M2: 35.45%, p = 0.02). We also detected an increase in the percentage of viable spermatozoa with low membrane lipid disorder (M1: 31.36% vs. M2: 33.17%, p = 0.03) and a reduction in chromatin condensation (44.62 vs. 46.62 arbitrary units, p = 0.02). Further studies will be necessary to evaluate the possible clinical applications.     

Cryopreservation of isolated rat hepatocytes: a critical evaluation of freezing and thawing conditions

Various parameters, including the nature and proportion of the constituents of the cryoprotective medium, the cooling rate, and the composition of the thawing medium, were evaluated for the cryopreservation of adult rat hepatocytes. The highest percentage of cells able to survive in culture was obtained by freezing in L15 medium containing 16% dimethyl sulfoxide, at a rate of 3 degrees C/min, and by adding 0.8 M glucose to the thawing medium. More than 50% of hepatocytes capable of attachment just after cell isolation kept this property after freezing and survived in primary culture. Dead cells could be eliminated before seeding by centrifugation on a Percoll layer. In culture, frozen cells exhibited a morphology similar to that of unfrozen cells and after 24 hr their protein secretion rate was reduced by only about 40%.     

Biological activity of Friend spleen focus-forming virus after cold storage

Two stocks of Friend spleen focus-forming virus (SFFV) were prepared, one in saline and the other in Eagle's medium with 2% fetal calf serum, and the effects of different freezing, storage and thawing temperatures were determined for the recovery of infectious virus from each diluent. Once frozen, virus maintained its titer at ?70 and at ?170 °C for up to 13 weeks, while it lost titer at ?13 °C more rapidly if it had been prepared in saline than in medium. However, during the freezing process lower ambient temperatures (?70 and ?170 °C) gave lower virus yields than a higher temperature (?13 °C) did. Similarly, rapid thawing (in a 37 °C water bath) was less efficient than slow thawing (in 4 or 20 °C air) for the recovery of infectious SFFV, This study illustrates the importance, for efficient recovery of leukemogenic activity from stored murine leukemia virus stocks, of the temperature used for freezing or thawing, as well as for storage.     

Cryopreservation of heart cells from the eastern oyster

Summary Conditions were developed to cryopreserve cells from pronase-dissociated atria and ventricles of eastern oysters (Crassostrea virginica). The effect of three concentrations (5, 10, 15%) of the cryoprotectants (dimethyl sulfoxide, glycerol, and propylene glycol), three thawing temperatures (25, 45, 75°C), and three cooling rates (slow, medium, fast) were compared. Cells were frozen at −80°C and plunged in liquid nitrogen. Thawed cells were seeded in 96-well plates and primary cultures were evaluated after 3 d by measuring the metabolic activity using a tetrazolium compound, 3-(4,5-dimethylthiazol-2-yl)-5-( 3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium, and by comparing the relative spreading of cells between treatments. The best conditions for freezing and thawing of cells for each cryoprotectant were selected and a final study was performed to compare cryoprotectants. For this final study, we measured the number of cells and their viability 3 d after thawing, in addition to determining cell metabolic activity and cell spreading. Primary cultures of cells frozen without cryoprotectant and of nonfrozen cells were used as controls in all studies. Atrial cells were best cryopreserved with glycerol at a concentration of 10%, a medium cooling rate, and thawing at 45°C. After thawing, atrial cells showed 53±5% of the metabolic activity, 84±5% of the number, and 92±2% of the viability of nonfrozen cells. For ventricular cells, 10% glycerol, a medium cooling rate, and thawing at 25°C yielded the best results. The thawed ventricular cells showed 83±5% of the metabolic activity, 91±5% of the number, and 96±2% of the viability of nonfrozen cells.     

Metabolic Injury in Frozen Bacteria

S ummary : Aerobacter aerogenes populations, partly killed by freezing and thawing, usually showed more viable bacteria when plated on a rich medium than on a poor one. This 'metabolic injury' was not due to osmotic sensitivity or to toxic materials in the agar. Freezing and thawing was not significantly mutagenic and mutation to nutritional exigence did not account for the phenomenon. The survivors of freezing and thawing showed long lag phases in the recovery media, during which lag periods further mortality occurred.     

Epigallocatechin-3-gallate added after thawing to frozen dog semen: Effect on sperm parameters and ability to bind to oocytes’ zona pellucida

Dog sperm cryopreservation is gaining importance both in breeding dogs for commercial purposes and for pet animals. Anyway, cryopreservation of mammalian spermatozoa, including dog ones, induces some negative effect on sperm fertility, leading to a lower use of this technique and limiting its widespread use. Therefore, studies to improve the quality of canine semen after cryopreservation could have a relevant impact on both the scientific advancement and the clinical practice. The aim of the present work was to investigate the putative ameliorative effect of Epigallochatechin-3-gallate (EGCG) addition to post thawing medium on dog sperm motility, mitochondrial activity, acrosome integrity and on zona-binding ability (zona binding assay). Spermatozoa were thawed in Tris-fructose-citrate medium supplemented with EGCG (0, 25 and 50 μM) and sperm motility, mitochondrial activity and acrosome integrity were assayed at 0.5, 1.5, 3 and 6 h after post thawing incubation at 37 °C. An aliquot of semen from each treatment group after 1.5 h post thawing incubation was washed and used to perform heterologous (using porcine oocytes) or homologous zona binding assay. The results obtained showed that no significant effect is exerted by EGCG on sperm parameters analysed neither at 0.5, 1.5, 3 or 6 h after thawing excepting for the reduction of the percentage of live cells with active mitochondria at the higher dose at 6 h; furthermore, both homologous or heterologous zona binding ability, was not influenced by EGCG. In conclusion, EGCG supplementation to thawing medium does not improve dog sperm quality or zona binding capacity.     

Effect of thawing procedure on cryosurvival of deer spermatozoa: work in progress

The objective of this study was to evaluate the effect of the thawing procedure on deer semen freezability. Frozen semen from the Genetic Resource Bank (GRB) of the Zoological Park of Buenos Aires (Argentina) was used. Seven mature stags (two red deer, two Père David's deer and three fallow deer) were used as semen donors. Semen was diluted with a TRIS-egg yolk medium, packed in 0.25 ml straws and frozen in nitrogen vapour. For thawing, the frozen straws were subjected to the following procedures: (I) 70 degrees C, 5s; (II) 50 degrees C, 8s and (III) 37 degrees C, 10s. Freeze-thaw motility percentage (FMP) and spermatozoa rating (FMR) were determined subjectively. Viability and acrosome integrity (NAR) were also assessed and the hypo-osmotic swelling test (HOST) was used to assess membrane integrity. Freeze-thaw motility percentage, FMR and NAR were assessed after an incubation of 1h in citrate-yolk at 42 degrees C, and FMP and FMR after 2h of incubation under the same conditions. The thawing procedure did not have an effect on the seminal characteristics evaluated immediately after this process. However, differences in FMP after 2h of incubation (P<0.05) were found between the procedures, with the best overall recovery rates after freezing and thawing found with the use of protocols II (intermediate thawing) and III (slow thawing). Therefore, thawing protocols II and III, those that provide intermediate and slow thawing rates, were the most beneficial for semen thawing of the different cervid species analysed in this study.     

Survival and recovery of cryopreserved rat platelets

Freezing studies were conducted using rat platelets to determine if electromagnetic thawing could be used to improve the survival time and recovery of platelets over that obtainable with conventional techniques. A total of 130 experiments were conducted. Seventy-four control experiments not involving freezing and 56 experimental freezings of rat platelets were performed. In most freezing experiments, ⁵¹Cr-labeled platelets were maintained in a mixture of RCD-20% plasma-6% Me₂SO. In this medium, the mean survival and recovery of unfrozen control platelets were 3.50 days and 67%, respectively. The results for frozen-thawed platelets were not encouraging. Using the same incubation mixture, the mean survival time was 1.18 days and the mean recovery was 7%, yielding a platelet viability index of 3.5%. Changing the thawing method (electromagnetic or waterbath), Me₂SO concentration (6 or 10%), buffer medium (RCD-20% plasma or plasma), or freezing or thawing rate did not improve the results. When these same methods were applied in humans, platelets could be successfully frozen and thawed. It would therefore appear that the rat model is an inappropriate one in which to develop improved techniques for freezing and thawing human platelets.     

Freeze Preservation of Somatic Embryos and Clonal Plantlets of Carrot (Daucus carota L)

Cell suspensions of carrot (Daucus carota L.) can be cryopreserved by slow freezing (about 2 C per minute) in medium containing dimethylsulfoxide as a cryoprotectant. After storage in liquid nitrogen and thawing they demonstrate a high viability and are able to resume growth. Such a method entirely fails to preserve clonal plantlets; somatic embryos cease organized development at the time of freezing and recover growth only by secondary embryogenesis. Modification of the procedure, involving the removal of superficial moisture from cryoprotectant-treated embryos and plantlets and enclosing them in a foil envelope before freezing, greatly improves their survival potential. The use of dimethylsulfoxide at levels between 2.5 and 20% (v/v) and freezing at rates between 1 and 5 C per minute yielded viable preparations under appropriate thawing conditions. In general, treatments which increased tissue dehydration before or during freezing were most successful when followed by relatively slow thawing. Conversely where dehydration to a lesser degree was achieved, more rapid thawing was advantageous. Postthawing washing or inoculation into liquid media was inhibitory to recovery. On semisolid regrowth medium, somatic embryos resumed normal development, whereas in plantlets the root and shoot meristem regions gave rise to new growth. In both cases, inclusion of activated charcoal in the medium promoted organized growth.     

Involvement of two specific causes of cell mortality in freeze-thaw cycles with freezing to -196 degrees C

The purpose of this study was to examine cell viability after freezing. Two distinct ranges of temperature were identified as corresponding to stages at which yeast cell mortality occurred during freezing to -196 degrees C. The upper temperature range was related to the temperature of crystallization of the medium, which was dependent on the solute concentration; in this range mortality was prevented by high solute concentrations, and the proportion of the medium in the vitreous state was greater than the proportion in the crystallized state. The lower temperature range was related to recrystallization that occurred during thawing. Mortality in this temperature range was increased by a high cooling rate and/or high solute concentration in the freezing medium and a low temperature (less than -70 degrees C). However, a high rate of thawing prevented yeast mortality in this lower temperature range. Overall, it was found that cell viability could be conserved better under freezing conditions by increasing the osmotic pressure of the medium and by using an increased warming rate.     

Quick freezing of one-cell mouse embryos using ethylene glycol with sucrose

One-cell mouse embryos were frozen by direct plunging into liquid nitrogen (LN(2)) vapor after equilibration in 3 M ethylene glycol with 0.25 M sucrose (freezing medium) for 5 to 40 minutes. After thawing, the embryos were cultured in vitro and the effects of the equilibration period and dilution method were examined. No significant difference was observed in the in vitro survival of embryos when 0.5 or 1.0 M sucrose was used for the dilution of the cryoprotectant for each equilibration period. The highest survival rate (67.2%) was obtained when the embryos were equilibrated for 10 minutes, and the cryoprotectant diluted with either 0.5 or 1.0 M sucrose after thawing. Shorter (5 minutes) or prolonged (40 minutes) equilibration of embryos in the freezing medium yielded significantly lower survival rates. Dilution by direct transfer of the frozen-thawed embryos into PB1 resulted in lower survival rates than when 0.5 or 1.0 M sucrose was used. The in vitro development to the blastocyst stage of one-cell mouse embryos frozen after 10 minutes equilibration in the freezing medium and diluted after thawing in 0.5 M sucrose was significantly lower than the control (68.0 vs 92.7%). However, transfer of the blastocysts developing from frozen-thawed one-cell mouse embryos into the uterine horns of the recipients resulted in fetal development and implantation rates similar to the control.     

A simple freezing medium for serum-free cultured cells

Methylcellulose was found to protect serum-free cultured cells from the deleterious effects of freezing and thawing. We have formulated a simple medium suitable for freezing serum-free cultured cells that consists of 0.1% methylcellulose, 10% dimethylsulfoxide, and MEM or any other serum-free culture medium.     

Cultivation of Leptospira in a liquid culture medium with lysed rabbit blood

A new method of the preparation of liquid culture medium for the cultivation of Leptospira has been developed on the basis of multiple freezing and thawing of defibrinated rabbit blood. A higher productivity of the new medium in comparison with the medium used in common practice has been established. The medium having a new composition is suitable for cultivation of Leptospira and the accumulation of biomass. The advantage of the medium made is in addition to high growth properties, the its economic efficiency and availability for practical laboratories.     

Ultrastructural injury to human spermatozoa after freezing and thawing

The ultrastructure of human spermatozoa at various stages of the freezing and thawing process was studied. In addition to conventional fixations, a freeze-substitution method was used to examine spermatozoa before they were thawed. Dilution in a glycerol-egg yolk-citrate medium caused slight swelling of the acrosome. During slow freezing, when large ice crystals grow in the diluent, the sperm plasmalemma became tighter, the mitochondria had more angular profiles and there was a reduction in electron density of the acrosomal contents. After thawing, the apical segment of the acrosome usually became swollen and the mitochondria appeared rounded. We deduce that these ultrastructural changes occur either during or after the thawing procedure.     

Effect of seminal plasma on the motility of epididymal and ejaculated spermatozoa of the ram and bull during the cryopreservation process

Experiments were conducted to investigate the effect of seminal plasma on sperm motility during the cryopreservation process. Ejaculated and epididymal spermatozoa from the ram and the bull were washed by centrifugation and resuspended in either seminal plasma or a modified Tyrode's medium (TALP) prior to dilution in medium suitable for cryopreservation. Resuspension of washed ejaculated ram spermatozoa in seminal plasma resulted in higher percentages of motile spermatozoa than resuspension in TALP after the spermatozoa were cooled to 5 degrees C (52 vs 35%), and after thawing (14 vs 9%), respectively. Resuspension of epididymal ram spermatozoa in seminal plasma had no beneficial effect in maintaining sperm motility after cooling (78 vs 73%); however, seminal plasma was beneficial to epididymal ram spermatozoa after thawing (34 vs 3%), respectively. Resuspension of washed ejaculated bull spermatozoa in either seminal plasma or TALP had no effect on the percentage of motile spermatozoa after cooling to 5 degrees C (73 vs 75%) or after thawing (60 vs 60%), respectively. In addition, seminal plasma had no beneficial effect on the percentage of motile epididymal bull spermatozoa when compared with that of TALP-treated spermatozoa after cooling (75 vs 72%) or after thawing (66 vs 63%), respectively. Seminal plasma from different sires (ram and bull) affected epididymal sperm motility. The ability of sperm cells to withstand damage during cryopreservation, however, appears to reside in the sperm cells themselves, probably due to sperm cell composition.     

Effects of platelet-activating factor and platelet-activating factor: acetylhydrolase on in vitro post-thaw boar sperm parameters

Cryopreservation of boar sperm compromises fertility after thawing by reducing sperm longevity and inducing acrosome reaction-like changes. In an attempt to improve the post-thaw motility and acrosome integrity of boar sperm, semen was frozen using a modified Westendorf method in which the medium was supplemented with either platelet-activating factor (PAF) or a recombinant platelet-activating factor:acetylhydrolase (PAF:AH; Pafase) before or after freezing. Platelet-activating factor is a phospholipid that is present in boar semen and PAF:AH is the naturally occurring enzyme that converts PAF to biologically inactive Lyso-PAF. Addition of PAF to the cryopreservation medium improved post-thaw motility immediately after thawing and after 3h incubation at 37 degrees C (60.0+/-0.0% and 25.0+/-2.9%; mean+/-S.E.M.) compared to the control sperm (41.7+/-1.7% and 10.0+/-2.9%; P<0.05). Acrosome integrity was higher immediately after thawing and after 3 and 6h incubation at 37 degrees C when sperm were frozen in the presence of Pafase (55.7+/-3.2%, 45.7+/-3.7% and 23.0+/-3.1%), compared to the control sperm (42.7+/-1.5%, 25.7+/-5.7% and 12.3+/-2.7%) and sperm frozen in the presence of PAF (33.0+/-3.7%, 26.3+/-2.2% and 11.7+/-0.3%; P<0.05). Addition of PAF to sperm after thawing improved motility immediately post-thaw (41.6+/-2.6%), compared with addition of Pafase (23.3+/-2.2%) or the control sperm with no supplementation of the medium (26.7+/-2.2%; P<0.05). However, this beneficial effect was lost by 3h post-thaw. Supplementation of boar semen cryopreservation medium with PAF and Pafase appeared to have beneficial effects on the in vitro quality of the sperm post-thaw.