Cryopreservation of fetal skin is improved by extracellular trehalose

In this study, we tested a non-permeating cryoprotectant, trehalose, in combination with dimethyl sulfoxide (Me(2)SO) in the cryopreservation of human fetal skin and compared it to Me(2)SO and glycerol, protocols that are routinely used by skin banks. The viability of fetal skin from four groups (fresh, and cryopreserved with glycerol, Me(2)SO, or trehalose/Me(2)SO) were evaluated using an in vitro membrane integrity assay and by transplantation to immunodeficient mice. The membrane integrity assay showed a 90% integrity in fresh, unfrozen fetal skin. The number of intact cells dropped to 23 and 44% in fetal skin cryopreserved with glycerol and Me(2)SO, respectively. When trehalose was added to the cryopreservation medium containing Me(2)SO, the membrane integrity rose to 65%. When transplanted to immunodeficient mice, fetal skin cryopreserved with trehalose/Me(2)SO showed a graft performance indistinguishable from fresh unfrozen fetal skin and strikingly better graft take than that of fetal skin cryopreserved with Me(2)SO or glycerol only. These results suggest that cryopreservation protocols routinely used the skin banks can be improved by combining sugars such as trehalose with a permeating cryoprotectant.     

Antibody-dependent cell-mediated cytotoxicity of cryopreserved human monocytes

Human peripheral blood monocytes (PBM) modulate and participate in a variety of host defences. Cryopreservation of PBM has facilitated studies of their function. Peripheral blood samples cleared of red cells and granulocytes by centrifugation over Ficoll-Hypaque were cryopreserved at 1 degree C/min in 10% Me2SO and stored at -150 degrees C. Cryopreserved cells were thawed rapidly, diluted at a constant rate over 10 min with 9 vol of media, and washed twice prior to study. Antibody-dependent cell-mediated cytotoxicity (ADCC) activity against anti-D-coated Rh-positive erythrocytes of both fresh and cryopreserved PBM was tested and found to be equal (52.5 vs 51%). The myeloperoxidase positive, EA-rosette-positive population in cryopreserved cells was 39% compared with 17% for fresh cells (P less than 0.0001). This difference is due to preferential recovery of cryopreserved monocytes among mononuclear cells. The proportion of cells expressing Fc receptors among the myeloperoxidase-positive mononuclear cell population increased after freezing, suggesting an alteration in membrane structure induced by cryopreservation. It is concluded that PBM can be cryopreserved in Me2SO and that ADCC function is fully retained in the cryopreserved cells. This study along with a previous study (R.S. Weiner and S.J. Norman, J. Natl. Cancer Inst. 66, 255-260, 1981) demonstrate the feasibility of using cryopreserved human PBM for functional studies.     

Platelet cryopreservation using a combination of epinephrine and dimethyl sulfoxide as cryoprotectants

Current methods of platelet storage are unsatisfactory because of the short shelf life of platelets and the rapid loss of platelet viability. We have developed a cryopreservation method that results in less damage from freezing and higher recovered function of platelets. Platelets were cryopreserved using a combination of epinephrine (EPN) and dimethyl sulfoxide (Me(2)SO) as cryoprotectants. The response of platelets to agonists was studied by flow cytometry and aggregation tests. Cryopreserving platelets with Me(2)SO decreased platelet annexin V binding due to freezing. The combination of EPN with Me(2)SO enhanced Me(2)SO cryoprotection and decreased platelet microparticle generation, suggesting that cryopreserving platelets using this combination is associated with increased platelet integrity. Platelet cryopreservation with an Me(2)SO/EPN combination also increased platelet aggregability, which was demonstrated by decreasing the lag phase and increasing the aggregation density to 66.39% +/- 6.6 that of fresh platelet-rich plasmas. We conclude that adding EPN as a combined cryoprotectant improves the quality of Me(2)SO-frozen platelets. As a method of aggregation of cryopreserved platelets, this method is comparable to that of normal fresh platelets and may improve the conditions for platelet transfusion.     

Effects of dimethyl sulfoxide and glycine on cryopreservation induced damage of plasma membranes and mitochondria to striped bass (Morone saxatilis) sperm

Intact plasma membrane and functional mitochondria are important attributes for the fertilization capacity of fish sperm. In the present study, dimethyl sulfoxide (Me(2)SO) and glycine were investigated in an effort to improve plasma membrane integrity and mitochondrial function in cryopreserved striped bass (Morone saxatilis) sperm. Prior to freezing, no concentration of Me(2)SO (2.5, 5 or 10%) was found to affect (P>0.05) the integrity of plasma membranes after sperm were exposed for 10 min. However, mitochondrial function decreased (P>0.05) with increasing Me(2)SO concentration. Both fluorescent staining and microscopic examination of the ultrastructure of post-thaw plasma membranes indicated that with increasing Me(2)SO concentration, plasma membranes were better protected, and 10% Me(2)SO had the highest percentage of sperm with plasma membranes intact. However, sperm mitochondrial function decreased (P>0.05) with increasing Me(2)SO concentration. The inverse relationship between plasma membrane integrity and mitochondrial function, given the Me(2)SO concentration, suggests that care must be taken to select Me(2)SO concentration that will maximize the protection of both plasma membranes and mitochondrial function. The addition of glycine to the cryomedia increased (P<0.05) the percentage of sperm with post-thaw functional mitochondria and ATP content. However glycine did not provide (P<0.05) protection to post-thaw plasma membrane integrity. The highest percentage of sperm with both intact plasma membranes and functional mitochondria was obtained with 7.5% Me(2)SO and 75 mM glycine.     

Exposure to dimethyl sulfoxide at 37 degrees C prior to freezing significantly improves the recovery of cryopreserved hybridoma cells

Standard cryopreservation protocols recommend the use of dimethyl sulfoxide (Me2SO) at moderate temperatures only (room temperature, 4 degrees C) due to its toxicity which appears to be potentiated by warm temperatures. In the present study, we asked whether a transient increase in temperature during membrane sealing of cryovials affects the cell viability. We show here that the cell viability of hybridoma cells and Schwann cells was not reduced following membrane sealing of cryotubes. On the contrary, incubation of cells at 37 degrees C in Me2SO-containing medium prior to freezing significantly stimulated the viability of cryopreserved hybridoma cells, whereas the viability of Schwann cells remained unaltered. We conclude that the exposure of cells to Me2SO at elevated temperatures does not necessarily reduce cell viability and that contrary to this, cell type-specific, beneficial effects of Me2SO could be observed.     

Ca2+ transport and permeability in inside-out red cell membrane vesicles after freezing

To evaluate the effects of freezing and thawing on Ca2+ transport and permeability, inside-out red cell membrane vesicles (IORCMV) are examined. Exposure to the cryoprotectant Me2SO as well as different cooling regimes on unprotected and cryoprotected vesicles do not affect the membrane Ca2+ transport. However, freezing and thawing increase the membrane permeability to sucrose.     

Cryopreservation of cultured periosteum: effect of different cryoprotectants and pre-incubation protocols on cell viability and osteogenic potential

Evidence has accumulated that periosteal cells have a great potential to regenerate bone. We have demonstrated that cultured periosteum (CP) in membrane form is an effective device to regenerate alveolar bone. To increase the availability of CP in a clinical environment, an effective cryopreservation protocol for CP has been developed. In this study, three different cryoprotectants (Me(2)SO, glycerol, and ethylene glycol) were used. The effect on cell viability of pre-incubation temperature, pre-incubation time, and agitation during incubation was investigated. Samples were stored at -196 degrees C for 10 days. Cell viability was assessed by a colorimetric cell viability assay using a tetrazolium salt, and the assay results were confirmed by confocal laser scanning microscopy after staining with a combination of calcein AM and ethidium homodimer-1. The activity of the cells after thawing was assessed by alkaline phosphatase assay. To assess the osteogenic potential of cryopreserved CP, the CP was grafted to calvarial defects in athymic rats. The greatest cell viability was obtained in the group equilibrated at 37 degrees C for 30 min with Me(2)SO, under agitation, showing 63.3 +/- 10.5% recovery. After cryopreservation, the cell growth of surviving cells was identical when Me(2)SO was used as a cryoprotectant. Alkaline phosphatase (ALP) activity was maintained in the groups cryopreserved with Me(2)SO and glycerol. The transplantation experiment showed that the calvarial defects were completely closed by grafting cryopreserved CP, which demonstrates that the osteogenic property of CP was well maintained. An efficient cryopreservation protocol for CP has been developed and this will provide a convenient and effective treatment option for bone regeneration in clinics.     

A proteomic approach towards understanding crypoprotective action of Me2SO on the CHO cell proteome

Chinese hamster ovary (CHO) cell lines are the most widely used in vitro cells for research and production of recombinant proteins such as rhGH, tPA, and erythropoietin. We aimed to investigate changes in protein profiles after cryopreservation using 2D-DIGE MALDI-TOF MS and network pathway analysis. The proteome changes that occur in CHO cells between freshly prepared cells and cryopreserved cells with and without Me2SO were compared to determine the key proteins and pathways altered during recovery from cryopreservation. A total of 54 proteins were identified and successfully matched to 37 peptide mass fingerprints (PMF). 14 protein spots showed an increase while 23 showed decrease abundance in the Me2SO free group compared to the control. The proteins with increased abundance included vimentin, heat shock protein 60 kDa, mitochondrial, heat shock 70 kDa protein 9, protein disulfide-isomerase A3, voltage-dependent anion-selective channel protein 2. Those with a decrease in abundance were myotubularin, glutathione peroxidase, enolase, phospho glyceromutase, chloride intracellular channel protein 1. The main canonical functional pathway affected involved the unfolded protein response, aldosterone Signaling in Epithelial Cells, 14-3-3-mediated signaling. 2D-DIGE MALDI TOF mass spectrometry and network pathway analysis revealed the differential proteome expression of FreeStyle CHO cells after cryopreservation with and without 5% Me2SOto involve pathways related to post-translational modification, protein folding and cell death and survival (score = 56, 22 focus molecules). This study revealed, for the first time to our knowledge the proteins and their regulated pathways involved in the cryoprotective action of 5% Me2SO. The use of 5% Me2SO as a cryoprotectant maintained the CHO cell proteome in the cryopreserved cells, similar to that of fresh CHO cells.     

Cryopreservation of swine ovarian tissue: Effect of different cryoprotectants on the structural preservation of preantral follicle oocytes

The present study aimed to test different cryoprotectants on cryopreservation of pig ovarian tissue. Pig ovaries (n = 3) were collected at a local slaughterhouse. From each ovary, ten cortex samples were taken. One was immediately fixed (control) and another placed in short-term tissue incubation (STTI control). The other 8 samples were cryopreserved, in pairs, using 4 different cryoprotectants: dimethyl sulphoxide (Me2SO – 1.5 M), ethylene glycol (EG – 1.5 M), propanediol (PROH – 1.5 M) and glycerol (GLY – 10%), all with 0.4% sucrose. Samples were slow cooled and stored in liquid nitrogen for 7 days. After thawing and cryoprotectant removal, one sample from each treatment was immediately fixed and the other was placed in short-term tissue incubation (STTI) for 2 h and then fixed. Samples were processed for histology and transmission electron microscopy. The percentages of morphologically normal follicles (MNF) in cryopreserved tissue using Me2SO (67.0 ± 4.9), EG (81.8 ± 1.4) and PROH (55.9 ± 9.9) were significantly lower (P < 0.05) than observed in fresh control tissue (97.7 ± 1.2). When ovarian tissue was cryopreserved with GLY, no morphologically normal follicles could be found (0%). After STTI, PROH showed a significantly lower percentage of MNF when compared with all other treatments and the control. After ultrastructural analysis, follicles cryopreserved with Me2SO and EG showed some small alterations, but no signs of advanced degeneration. Overall, these were similar to follicles from the control group. In conclusion, it is possible to cryopreserve preantral follicles from pig ovarian tissue using Me2SO or EG.     

Cryopreservation of chum salmon blastomeres by the straw method

In order to preserve genetic resources of chum salmon, Oncorhynchus keta, optimum conditions for cryopreservation of isolated blastomeres were investigated. Survival rates under various conditions were compared: the nature and the concentration of cryoprotectants before and after freezing, the seeding temperature, and the developmental stages of donor embryos. Isolated blastomeres immersed for 30 min in Eagle's MEM containing both a cryoprotectant and 10% fetal bovine serum (FBS) at 10 degrees C were transferred into a straw and frozen at 1 degrees C/min to -30 degrees C by a programmable freezer before being plunged into liquid nitrogen. Ice seeding was carried out at -5 to -15 degrees C. Frozen blastomeres were thawed in water at 15 degrees C. Blastomeres cryopreserved with MEM containing 10% dimethyl sulfoxide (Me(2)SO) and 10% FBS (10% Me(2)SO/MEM10) showed higher survival rates than those cryopreserved with MEM containing 10% FBS and 10% glycerol, ethyleneglycol, 1, 2-propanediol, or sucrose. Blastomeres treated with 10% Me(2)SO/MEM10 showed higher survival rates than those treated with MEM containing only 10% Me(2)SO. Blastomeres seeded above -10 degrees C showed higher survival rates than non-seeded ones. Frozen blastomeres at advanced stages demonstrated high survival rates. Blastomeres cryopreserved under optimum conditions showed survival rates of 59.3+/-2.8%. These results indicate that 10% Me(2)SO/MEM10 is a suitable cryoprotectant medium to cryopreserve chum salmon blastomeres, that seeding should be carried out above -10 degrees C on pre-freezing, and that blastomeres at the blastula stage should be used as material.     

Cryopreservation of isolated fish blastomeres: effects of cell stage, cryoprotectant concentration, and cooling rate on postthawing survival

The toxicity of the cryoprotectant dimethyl sulfoxide (Me(2)SO) to isolated blastomeres was examined in three fish species representative of distinct environments: marine (whiting, Sillago japonica); estuarine (pejerrey, Odontesthes bonariensis); and freshwater (medaka, Oryzias latipes). The effects of embryonic stage, Me(2)SO concentration, and cooling rate on the cryopreservation of blastomeres were also studied. Whiting sheds small planktonic eggs whereas the other two species shed large demersal eggs. Isolated blastomeres from the three species tolerated Me(2)SO concentrations up to 9% relatively well for over 5 h but lost viability rapidly at 18%. Cells from later embryonic stages (512 or 1024 cells) were more tolerant of Me(2)SO than those from earlier stages (128 or 256 cells). The three factors examined, alone or in combination, had a significant effect on the survival of blastomeres after freezing and thawing, but the extent of the effect and the optimum conditions varied with the species. In general, the highest rates of successful cryopreservation were observed with older rather than younger blastomeres, slower rather than faster cooling, and with 9-18% rather than 0% Me(2)SO. Survival rates for blastomeres cryopreserved under the most effective combination of the three factors examined for each species were 19.9 +/- 10.1% for whiting, 34.1 +/- 8.5% for medaka, and 67.4 +/- 12.8% for pejerrey. Copyright 1999 Academic Press.     

Transplantation and in vitro perifusion of rat islets of Langerhans after slow cooling and warming in the presence of either glycerol or dimethyl sulfoxide

The cryoprotectants dimethyl sulfoxide (Me2SO) and glycerol have been used for the cryopreservation of fetal rat pancreases but only Me2SO has been reported for the cryopreservation of adult rat islets. Since glycerol may be preferred to Me2SO for clinical use, this study was undertaken to compare the effectiveness of these cryoprotectants during the slow cooling of isolated adult rat islets. Islets of Langerhans prepared from the pancreases of WAG rats by collagenase digestion were stored at -196 degrees C after slow cooling (0.3 degrees C/min) to -70 degrees C in the presence of multimolar concentrations of either Me2SO or glycerol. Samples were rewarmed slowly (approximately 10 degrees C/min) and dilution of the cryoprotectant was achieved using medium containing sucrose. Function was assessed by determination of the time course of the glucose-induced insulin release during in vitro perifusion at 37 degrees C and also by isograft transplantation. Transplants were carried out by intraportal injection of a minimum of 1700 frozen and thawed islets into streptozotocin-induced diabetic recipients and tissue function was assessed by monitoring blood glucose levels and body weight changes. Without exception the islets frozen and thawed in the presence of glycerol failed to reduce high serum glucose levels of recipient rats and in vitro dynamic release curves showed to demonstrate a glucose-sensitive insulin release pattern. Reversal of the diabetic conditions was achieved in two of five animals receiving islets which had been frozen and thawed with 2 M Me2SO; and in one of three animals receiving islets cryopreserved with 3 M Me2SO. Nevertheless, perifusion studies showed that the pattern of insulin secretion from groups of cryopreserved islets which did show an ability to secrete insulin was atypical compared with that of untreated controls, suggesting that the tissue was altered or damaged in some way.     

Cryopreservation of mantle dissociated cells from Haliotis tuberculata (Gastropoda) and postthawed primary cell cultures

Dissociated mantle cells from the gastropod mollusc Haliotis tuberculata were cultured after a freezing-thawing procedure using either 10% dimethyl sulfoxide (Me(2)SO) or 10% glycerol (Gly) as a cryoprotector. The survival rate of 2-day-old cultured cryopreserved cells after thawing, based on analysis of DNA and protein contents, was nearly 80% in comparison with 2-day-old cultured fresh cells. Cells thawed after cryopreservation exhibited the maintenance of all tested physiological activities. Metabolic activity (measured by the MTT test) and the activity of alkaline phosphatase (a plasma membrane-bound enzyme) were not decreased in comparison to those in cultured fresh cells. In addition, cryopreserved cultured cells maintained a physiological stimulation ability in response to treatment with growth factors. These results taken together represent one of the most convincing demonstrations of the survival and of the recovery of intact functional activities of molluscan cells after a freeze-thawing procedure. Our results suggest that in the future primary cultures of cryopreserved mantle cells will be able to be used for fundamental research, in toxicity tests, or in the field of biotechnology.     

Osteoblast viability and differentiation with Me2SO as cryoprotectant compared to osteoblasts from fresh human iliac cancellous bone

The aim of this study was to compare the viability of human osteoblasts cryopreserved with Me2SO to that of fresh human iliac cancellous bone using cell culture techniques. Osteoblasts were obtained by spontaneous outgrowth of human iliac cancellous bone specimens in experiment I. In experiment II, human iliac cancellous bone was frozen with 10% Me2SO at -80 degrees C for 2 weeks and osteoblasts grew spontaneously after thawing at 37 degrees C by removing Me2SO with sucrose. The cells were grown in culture flasks containing DMEM as a culture medium, supplemented with 10% fetal calf serum. They were kept at 37 degrees C in a humidified atmosphere of 95% air and 5% CO2. Cells from the second passage were plated at a density of 5 times 10(3) cells/cm2 in 24-well plates. For detection of viability and differentiation, WST-1 assay, determination of alkaline phosphatase activity, concentration of procollagen I peptide, concentration of osteocalcin, and indirect immunofluorescence for osteopontin, collagen type I, integrin beta1, and fibronectin were applied. Experiments were conducted at four stages of confluence (days 4, 7, 14, and 21 after plating the cells). Based on the results of this study, we conclude that osteoblast-like cells survived cryopreservation and synthesized a range of markers that were consistent with this cell type.     

Water crystallization within rat precision-cut liver slices in relation to their viability

This study examined whether tissue vitrification, promoted by partitioning within the tissue, could be the mechanism explaining the high viability of rat liver slices, rapidly frozen after preincubation with 18% Me2SO or VS4 (a 7.5 M mixture of Me2SO, 1,2-propanediol, and formamide with weight ratio 21.5:15:2.4). To achieve this, we first determined the extent to which crystallization or vitrification occurred in cryoprotectant solutions (Me2SO and VS4) and within liver slices impregnated with these solutions. Second, we determined how these events were related to survival of slices after thawing. Water crystallization was evaluated by differential scanning calorimetry and viability was determined by histomorphological examination of the slices after culturing at 37 degrees C for 4 h. VS4-preincubated liver slices indeed behaved differently from bulk VS4 solution, because, when vitrified, they had a lower tendency to devitrify. Vitrified VS4-preincubated slices that were warmed sufficiently rapid to prevent devitrification had a high viability. When VS4 was diluted (to 75%) or if warming was not fast enough to prevent ice formation, slices had a low viability. With 45% Me2SO, low viability of cryopreserved slices was caused by cryoprotectant toxicity. Surprisingly, liver slices preincubated with 18% Me2SO or 50% VS4 had a high viability despite the formation of ice within the slice. In conclusion, tissue vitrification provides a mechanism that explains the high viability of VS4-preincubated slices after ultrarapid freezing and thawing (>800 degrees C/min). Slices that are preincubated with moderately concentrated cryoprotectant solutions (18% Me2SO, 50% VS4) and cooled rapidly (100 degrees C/min) survive cryopreservation despite the formation of ice crystals within the slice.     

Stimulatory and inhibitory effects of dimethyl sulfoxide and ethylene glycol on ATPase activity and calcium transport of sarcoplasmic membranes.

1. The effect of dimethyl sulfoxide (Me2SO) and ethylene glycol on two different preparations of the sarcoplasmic reticulum, i.e. native membranes and membranes whose phospholipids were hydrolyzed by phospholipase A, were investigated using ATP and p-nitrophenylphosphate as substrates. 2. Me2SO and ethylene glycol inhibit both calcium-dependent ATP hydrolysis and ATP-supported calcium transport by native vesicles. 3. In contrast, calcium-dependent p-nitrophenylphosphatase activity as well as p-nitrophenyl-phosphate-supported calcium transport are activated by both agents at concentrations lower than 30% (v/v). 4. Me2SO strongly stimulates p-nitrophenylphosphate activity of vesicles treated with phospholipase A, but has relatively little effect on p-nitrophenylphosphatase activity of native vesicles. 5. Up to a concentration of approximately 40% Me2SO (v/v) the inhibiting effect on the calcium-dependent ATPase is fully reversible, but only partially reversible on calcium transport. 6. In the concentration range where Me2SO inhibits ATP hydrolysis and calcium transport, it does not affect ATP binding to the membranes nor calcium-dependent formation of phospho-protein. 7. The rate of dephosphorylation as well as the rate of Pi exchange between ATP and ADP are markedly reduced by the presence of 30% Me2SO (v/v). 8. While Me2SO inhibits passive calcium efflux, ethylene glycol produces a considerable activation. 9. ADP-dependent calcium efflux and ATP synthesis are activated by 15% Me2SO (v/v). Ethylene glycol reduces both activities. 10. The results suggest that the respective substrate-enzyme complexes are differently affected by the agents, resulting either in inhibition or stimulation     

Decrease in glucose transport activity of Friend erythroleukemia cell caused by dimethylsulfoxide, a differentiation-inducing reagent

A transport system for D-glucose was found in a Friend erythroleukemia cell line, T-3-C1-2-O and was characterized as a facilitated diffusion system. D-Glucose transport activity showed a half-saturation concentration of 2.2 mM and was inhibited by mercuric ions, cytochalasin B, phloretin, and stilbestrol, but was not strongly inhibited by phloridzin. Transport of 3-O-methyl-D-glucose was faster than D-glucose and the intracellular concentration of the sugar was found to reach the concentration in the assay medium. The treatment of cells with a differentiation-inducing reagent, dimethylsulfoxide(Me2SO), for 24 h caused a marked decrease in glucose transport activity due to a decrease in Vmax. In an induction-insensitive Friend cell line, T-3-K-1, D-glucose transport activity was low in untreated cells and Me2SO treatment did not cause a significant decrease in transport activity. The results obtained in this study indicate that the decrease in glucose transport activity is not due to the direct effect of Me2SO on transport activity, but is associated with the induction of differentiation. By immunoblotting cell lysates of T-3-C1-2-O cells using antibody to human erythrocyte glucose transporter, a single major band having a molecular weight of 52,000 was detected, which may be a glucose transporter in Friend cells.     

Cell survival after cryopreservation of dissociated testicular cells from feline species

Testicular cell suspension (TCS) can be cryopreserved for male germ-line preservation and fertility restoration. We aimed to validate a cryopreservation protocol for TCS of domestic cat to be applied in endangered felids species. Testis tissue from adult domestic cats was enzymatically dissociated and spermatogenic cells were enriched. The resulting TCS was diluted in 7.5% or 15% Me2SO based medium. Slow and fast freezing methods were tested. We examined the effects of freezing approaches using two combinations of fluorescent dyes: Calcein-AM with Propidium iodide (C/PI) and SYBR14 with Propidium iodide (S/PI). Ploidy analysis of domestic cat fresh TCS revealed that the majority of testicular cells were haploid cells. Based on microscopic observation, two size populations (12.3 ± 2.3 μm and 20.5 ± 4 μm in diameter) were identified and presumed to be mainly spermatids and spermatocytes, respectively. Both evaluation methods proved higher viability of aggregated cells before and after cryopreservation compared with single cells, and superiority of low concentration of Me2SO (7.5%) in association with slow freezing to preserve viability of testicular cells. However, S/PI resulted in a more precise evaluation compared with the C/PI method. The combination of 7.5% Me2SO-based medium with slow freezing yielded post thaw viability of S/PI labeled aggregated (49.8 ± 20%) and single cells (31.5 ± 8.1%). Comparable results were achieved using testes of a Cheetah and an Asiatic golden cat. In conclusion, TCS from domestic cat can be successfully cryopreserved and has the potential to support fertility restoration of endangered felids species.     

Ultrastructural changes in the MP3 neuron of the mollusk Lymnaea stagnalis after cryopreservation of the isolated brain

Investigation of a possibility of long-term storage of frozen (-196 degrees C) viable neurons and nervous tissue is one of the central present day problems. In this study ultrastructural changes in neurons of frozen-thawed snail brain were examined as a function of time. We studied the influence of cryopreservation, cryoprotectant (Me2SO), cooling to 4-6 degrees C, and a prolonged incubation in physiological solution at 4-6 degrees C on dictyosomes of Golgi apparatus, endoplasmic reticulum (ER) cisternae and mitochondria. It has been found that responses of these intracellular structures of cryopreserved neurons to the above influences are similar: dissociation of Golgi dictyosomes, swelling of endoplasmic reticulum cisternae and mitochondrial cristae. Both freezing-thawing and cryoprotectant were seen to cause an increase in the number of lysosomes, liposomes, myelin-like structures, and to form large vacuoles. The structural changes in molluscan neurons caused by cryopreservation with Me2SO (2 M) were reversible.     

Modulation of the cryopreservation cap: elevated survival with reduced dimethyl sulfoxide concentration

The development of cryopreservation (CP) strategies has traditionally focused on the cellular chemo-osmometric characteristics attendant to the freeze-thaw process. This approach coupled with a limited understanding of cellular physiological and biochemical responses to the CP process often yields sub-optimal cell survival. Recently, we have reported on the benefits of the utilization of an intracellular-like preservation solution, HypoThermosol (HTS), as well as incorporating a molecular approach to improving CP outcome [In Vitro Cell. Dev. Biol. Anim. 36(4) (2000) 262]. We now report on the elucidation of a cryoprotective agent (CPA)-dependent survival limit (cap) associated with standard CP methodologies. We further demonstrate an elevation and shift in the CP cap through the utilization of HTS coupled with a reduction in CPA levels necessary to achieve "successful" cell preservation. METHODS: Human fibroblasts, keratinocytes, hepatic, and renal cells were cryopreserved in a standard fashion (approximately 1 degrees C min-1 cooling and storage in LN2) in culture media (serum-free) or HTS with varying levels of dimethyl sulfoxide (Me2SO). Samples were allowed to recover for 24-h prior to survival assessment. Survival was assessed using alamarBlue (metabolic activity indicator) and calcien-AM (membrane integrity stain) in comparison with non-frozen controls. RESULTS: (1) A limit in cell survival was identified following CP in media-based CP solutions yielding a cell-type specific CPA-dependent survival limit, (2) peak cell survival resulted in the identification of "optimal" Me2SO concentrations for CP of each cell type, (3) incorporation of HTS as the carrier medium at typical Me2SO concentrations substantially elevated survival, and (4) utilization of HTS allowed for the successful preservation of all systems examined at significantly reduced Me2SO levels. CONCLUSION: The data presented in this study illustrate that the utilization of HTS as the carrier medium during CP facilitated a significant improvement in efficacy at reduced Me2SO levels. Further, the utilization of HTS offers the potential for successful Me2SO-free CP. These findings may prove significant to the advancement in the development of cell-based clinical therapies by providing an improved biocompatible CP methodology.