Evaluation of cell viability and apoptosis in human amniotic fluid-derived stem cells with natural cryoprotectants

A previous study demonstrated that disaccharides, antioxidants, and caspase inhibitors can be used in freezing solutions to reduce the concentration of Me₂SO from the current standard of 10% (v/v) to 5% (v/v) or 2.5% and to eliminate fetal bovine serum (FBS) for the cryopreservation of human amniotic fluid-derived stem cells (AFSCs). Hence, this study investigated whether an irreversible inhibitor of caspase enzymes, benzyloxycarbonyl-Val-Ala-dl-Asp-fluoromethylketone (zVAD-fmk), could be used in post-thaw culture media to increase the survival rate of AFSCs. Our results showed that AFSCs cryopreserved in freezing solution containing trehalose, catalase, and 5% (v/v) Me₂SO and then supplemented with zVAD-fmk in the post-thaw culture media showed similar post-thawing viability, proliferation, and apoptosis than cells cryopreserved in the control solution (10% (v/v) Me₂SO and 20% FBS). The caspase-3 activity in all the cryopreservation solutions tested was similar to that of the control. Caspase-3, caspase-8, caspase-9, and PARP expression was not found in the cryopreserved cells. In addition, no difference was found in the survival rate and apoptosis between short-term (3 weeks) and long-term (1 year) storage of AFSCs cryopreserved in the solutions used in this study. The results of the present study demonstrate that recovery of cryopreserved cells was enhanced by using a caspase inhibitor in the post-thaw culture media.     

Effective surface-based cryopreservation of human embryonic stem cells by vitrification

Human embryonic stem cells (hESCs) are candidates for many applications in the areas of regenerative medicine, tissue engineering, basic scientific research as well as pharmacology and toxicology. However, use of hESCs is limited by their sensitivity to freezing and thawing procedures. Hence, this emerging science needs new, reliable preservation methods for the long-term storage of large quantities of functional hESCs remaining pluripotent after post-thawing and culturing.Here, we present a highly efficient, surface based vitrification method for the cryopreservation of large numbers of adherent hESC colonies, using modified cell culture substrates. This technique results in much better post-thaw survival rate compared to cryopreservation in suspension and allows a quick and precise handling and storage of the cells, indicating low differentiation rates.     

Surface-based cryopreservation strategies for human embryonic stem cells: A comparative study

Human embryonic stem cells (hESC) hold tremendous potential in the emerging fields of gene and cell therapy as well as in basic scientific research. One of the major challenges regarding their application is the development of efficient cryopreservation protocols for hESC since current methods present poor recovery rates and/or technical difficulties which impair the development of effective processes that can handle bulk quantities of pluripotent cells. The main focus of this work was to compare different strategies for the cryopreservation of adherent hESC colonies. Slow‐rate freezing protocols using intact hESC colonies was evaluated and compared with a surface‐based vitrification approach. Entrapment within ultra‐high viscous alginate was investigated as the main strategy to avoid the commonly observed loss of viability and colony fragmentation during slow‐rate freezing. Our results indicate that entrapment beneath a layer of ultra‐high viscous alginate does not provide further protection to hESC cryopreserved through slow‐rate freezing, irrespectively of the cryomedium used. Vitrification of adherent hESC colonies on culture dishes yielded significantly higher recovery rates when compared to the slow‐rate freezing approaches investigated. The pluripotency of hESC was not changed after a vitrification/thawing cycle and during further propagation in culture. In conclusion, from the cryopreservation methods investigated in this study, surface‐based vitrification of hESC has proven to be the most efficient for the cryopreservation of intact hESC colonies, reducing the time required to amplify frozen stocks thus supporting the widespread use of these cells in research and clinical applications. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 1079–1087, 2012     

Effect of Rho-associated kinase (ROCK) inhibitor Y-27632 on the post-thaw viability of cryopreserved human bone marrow-derived mesenchymal stem cells

Human bone marrow-derived mesenchymal stem cells (MSC) have previously been reported to be susceptible to cryopreservation-induced apoptosis. A significant fraction of MSC lose their viability during freeze-thawing, which represent a major technical barrier in attaining adequate viable cell numbers for optimal efficacy in transplantation therapy. Recently, it was reported that a Rho-associated kinase (ROCK) inhibitor Y-27632 could enhance the post-thaw viability and physiological function of cryopreserved human embryonic stem cells (hESC). Hence, this study attempted to investigate whether Y-27632 can exert a similar beneficial effect on the post-thaw viability of cryopreserved MSC. A concentration range of 1–100 μM Y-27632 was supplemented in both the cryopreservation medium (10% (v/v) dimethyl sulfoxide), as well as the post-thaw culture medium. The supplementation of Y-27632 had no significant effect on the immediate post-thaw viability, as assessed by trypan blue exclusion. However, 24 h after the frozen-thawed cell suspensions were re-plated on new cell culture dishes (with varying concentrations of Y-27632 within the post-thaw culture media); the MTT assay subsequently showed significant differences in the proportion of adherent viable cells over the concentration range of Y-27632 examined, with a peak at between 5 and 10 μM. At zero concentration of Y-27632, the proportion of viable adherent cells was 39.8 ± 0.9%; and this value peaked at 48.5 ± 1.7% with 5 μM Y-27632 and 48.4 ± 1.8% with 10 μM Y-27632, prior to decreasing to 36.0 ± 0.6% with 100 μM Y-27632. Additionally, it was observed that Y-27632 induced morphological changes in the frozen-thawed MSC. With increasing Y-27632 concentration, the cells displayed more extensive branching of cytoplasmic extensions that gave a ‘web-like’ appearance. This is consistent with previous reports of Y-27632 stimulating neuronal differentiation of MSC.     

Trehalose improves rabbit sperm quality during cryopreservation

High levels of reactive oxygen species are associated with spermatozoa cryopreservation, which bring damage to functional spermatozoa. The aim of the present study was to investigate whether and how the freezing extenders supplemented with trehalose was beneficial for the survival of rabbit spermatozoa. semen was diluted with Tris-citrate-glucose extender addition of different concentrations of trehalose. Addition of 100 mM trehaose significantly improved post-thaw rabbit sperm parameters, such as motility, acrosome integriy, membrane integrity and mitochondrial membrane potential. Moreover, when freezing extenders supplemented with trehalose, activities of catalase (CAT), superoxide dismutase (SOD) and total antioxidant capacity (T-AOC) of post-thaw spermatozoa were enhanced, meanwhile, reactive oxygen species (ROS) level and Malondialdehyde (MDA) content were decreased. The results suggest that freezing extenders supplemented with 100 mM trehalose resulted in less ROS level and MDA content, higher motility and mitochondrial membrane potential as well as the integrity of acrosome and plasma membrane. Supplementation of trehalose with freezing extenders is beneficial to the rabbit breeding industry.     

Cryopreservation of mouse pancreatic islets: effects of different glucose concentrations in the post-thaw culture medium on islet recovery

It was the aim of this study to investigate the influence of the glucose concentration of the post-thaw culture medium on islet B-cell survival after cryopreservation by the combined assessments of islet recovery, islet DNA and insulin contents, and insulin release. Collagenase isolated mouse islets were kept in culture for 3 days in the presence of 11.1 mM glucose and then transferred to freezing ampoules containing Hanks' solution supplemented with 10% calf serum and 2 M dimethyl sulfoxide. After a 20-min incubation at 0 degrees C the islets were cooled at a rate of 25 degrees C/min to -70 degrees C and subsequently plunged into liquid nitrogen. After 2 hr the frozen islets were rapidly thawed at 37 degrees C, transferred to culture dishes, and cultured for another 3 days in the presence of 2.8, 5.6, 11.1, 16.7, or 28 mM glucose. Nonfrozen control islets were treated identically after a preceding 3-day culture at 11.1 mM glucose. The percentage recovery of cryopreserved islets was decreased compared to that of nonfrozen islets, but was increased when higher glucose concentrations were used in the post-thaw culture medium. Since the DNA content of the cryopreserved islets was slightly decreased, the overall survival rate of the cryopreserved B-cells, when cultured at the higher glucose concentrations after thawing, was found to be about 75%. The insulin content of the cryopreserved islets was decreased but the glucose-stimulated insulin release was essentially the same as that of the nonfrozen islets.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cryopreservation of hMSCs seeded silk nanofibers based tissue engineered constructs

Long term cryopreservation of tissue engineering constructs is of paramount importance to meet off-the shelf requirements for medical applications. In the present study, the effect of cryopreservation using natural osmolytes such as trehalose and ectoin with and without conventional Me₂SO on the cryopreservation of tissue engineered constructs (TECs) was evaluated. MSCs derived from umbilical cord were seeded on electrospun nanofibrous silk fibroin scaffolds and cultured to develop TECs. TECs were subjected to controlled rate freezing using nine different freezing solutions. Among these, freezing medium consisting of natural osmolytes like trehalose (40 mM), ectoin (40 mM), catalase (100 μg) as antioxidant and Me₂SO (2.5%) was found to be the most effective. Optimality of the chosen cryoprotectants was confirmed by cell viability (PI live/dead staining), cell proliferation (MTT assay), microstructure analysis (SEM), membrane integrity (confocal microscopy) and in vitro osteogenic differentiation (ALP assay, RT-PCR and histology) study carried out with post-thaw cryopreserved TECs. The mechanical integrity of the cryopreserved scaffold was found to be unaltered.     

Improvement of post-thaw sperm survivals using liquid nitrogen vapor in a spermcasting oyster Ostrea angasi

Low survival of cryopreserved sperm impedes the application of cryopreservation technique in spermcasting oyster species. This study developed a simple method of liquid nitrogen vapor freezing to improve post-thaw sperm survival in the spermcasting oyster Ostrea angasi. The results indicate that the permeable cryoprotectants, dimethyl sulfoxide (DMSO), ethylene glycol (EG) and propylene glycol (PG) were non-toxic to sperm up to 20% concentration and 90 min exposure whereas methanol at 10% or higher was toxic to sperm for any exposure over 30 min. Among the treatments with permeable cryoprotectants, 15% EG produced the highest post-thaw sperm motility. Sperm motility was further improved by the addition of non-permeable cryoprotectants (trehalose and glucose), with 15% EG + 0.2 M trehalose resulting in the highest post-thaw sperm motility among all the combinations evaluated. The durations of 20, 30 and 60 min equilibrations produced a higher post-thaw sperm motility and plasma membrane integrity (PMI) than 10 min. Higher post-thaw motility and PMI were achieved by freezing sperm at the 8 cm height from the liquid nitrogen surface than at the 2, 4, 6, 10 or 12 cm height. Holding sperm for 10 min in liquid nitrogen vapor produced higher post-thaw motility and PMI than for 2, 5 or 20 min. The cryopreservation protocol developed in this study improved both post-thaw motility and PMI of O. angasi sperm at least 15% higher than those cryopreserved using programmable freezing method. Liquid nitrogen vapor freezing might have greater applicability in improving post-thaw sperm quality of spermcasting oyster species.     

l-Cysteine improves survival and growth of mesothelial cells after freezing

Enzymic isolation, cryopreservation and culture of cells places considerable demand on intracellular antioxidant thiol status. Thiol status is carefully regulated in the cell by the balance of reduced and oxidized thiol species, including glutathione (GSH/GSSG) and l-cysteine (l-Cys/l-CySS disulphide). These play a pivotal role in redox signaling, cell attachment, proliferation and differentiation. Thiol depletion exposes cells to “thiol debt”, increasing their vulnerability to sustained pro-oxidant attack and injury. This study focused on the ability of l-Cys-enriched medium to enhance survival and growth of human peritoneal mesothelial cells (hPMC) after prolonged storage at −196 °C. HPMC derived from human omentum suspended in freezing solution (90 % foetal bovine serum, 10% dimethylsulfoxide) were cryopreserved at passage 1 for 6 years. Thawed cells cultured in medium M199 plus or minus l-Cys (0.25 mmol/L) were subjected to morphological, growth, ultrastructural studies, RT-PCR and cell signaling studies to assess cell function after cryopreservation. Viability of thawed cells was lower (85 ± 3%) than non-frozen control cells (98 ± 2% viable). l-Cys added to the cryopreservation fluid and the post-thaw medium increased cell viability to 94 ± 2%. Cell growth plus l-Cys was 2-fold greater compared with the minus l-Cys controls. The former had a cobblestone appearance. Ultrastructural studies showed lamellar bodies, indicative of surfactant production not evident in cells in minus l-Cys, which were a fibroblastic appearance. l-Cys treated hPMC constitutively expressed message for growth factors, TGFβ1, PDGF-A, PDGF-B and PDGFβ-receptor. The functionality of the PDGFβ-receptor was confirmed in fura-2 loaded cells with release of intracellular calcium when challenged with exogenous PDGF-BB. The addition of reduced thiols to culture media may have wider application in survival and enhance cell-based therapies.     

Cryopreservation of zebrafish (Danio rerio) oocytes using improved controlled slow cooling protocols

Cryopreservation of gametes provides a promising method to preserve fish genetic material. Previously we reported some preliminary results on cryopreservation of zebrafish (Danio rerio) oocytes using controlled slow cooling and determined the optimum cryoprotective medium and cooling rate for stage III zebrafish oocytes. In the present study, the effects of two different cryopreservation media, cryoprotectant removal method, final sample freezing temperature before LN₂ plunge, warming rate, and the post-thaw incubation time on oocyte viability were investigated. Commonly used cryoprotectant methanol and glucose were used in this study. Stage III zebrafish oocytes were frozen in standard culture medium 50% L-15 or in a sodium-free KCl buffer medium. Oocyte viability was assessed using trypan blue staining and ATP assay. The viability of oocytes frozen in KCl buffer was significantly higher than oocytes frozen in L-15 medium. The results also showed that fast thawing and stepwise removal of cryoprotectant improved oocyte survival significantly, with highest viability of 88.0 ± 1.7% being obtained immediately after rapid thawing when assessed by trypan blue staining. However, after 2 h incubation at 22 °C the viability of freeze-thawed oocytes decreased to 29.5 ± 5.1%. Results also showed that the ATP level in oocytes decreased significantly immediately after thawing. All oocytes became translucent after freezing which complicated the use of GVBD test (in vitro maturation of oocytes followed by observation of germinal vesicle breakdown which results in oocytes becoming translucent). New oocyte viability assessment methods are urgently needed.     

Static magnetic field increases survival rate of dental pulp stem cells during DMSO-free cryopreservation

Abstract

Successful and efficient cryopreservation of living cells and organs is a key clinical application of regenerative medicine. Recently, magnetic cryopreservation has been reported for intact tooth banking and cryopreservation of dental tissue. The aim of this study was to assess the cryoprotective effects of static magnetic fields (SMFs) on human dental pulp stem cells (DPSCs) during cryopreservation. Human DPSCs isolated from extracted teeth were frozen with a 0.4-T or 0.8-T SMF and then stored at ?196?°C for 24?h. During freezing, the cells were suspended in freezing media containing with 0, 3 or 10% DMSO. After thawing, the changes in survival rate of the DPSCs were determined by flow cytometry. To understand the possible cryoprotective mechanisms of the SMF, the membrane fluidity of SMF-exposed DPSCs was tested. The results showed that when the freezing medium was DMSO-free, the survival rates of the thawed DPSCs increased 2- or 2.5-fold when the cells were exposed to 0.4-T or 0.8-T SMFs, respectively (p?<?0.01). In addition, after exposure to the 0.4-T SMF, the fluorescence anisotropy of the DPSCs increased significantly (p?<?0.01) in the hydrophilic region. These results show that SMF exposure improved DMSO-free cryopreservation. This phenomenon may be due to the improvement of membrane stability for resisting damage caused by ice crystals during the freezing procedure.     

Enhancement of cell recovery for dissociated human embryonic stem cells after cryopreservation

Due to widespread applications of human embryonic stem (hES) cells, it is essential to establish effective protocols for cryopreservation and subsequent culture of hES cells to improve cell recovery. We have developed a new protocol for cryopreservation of dissociated hES cells and subsequent culture. We examined the effects of new formula of freezing solution containing 7.5% dimethylsulfoxide (DMSO) (v/v %) and 2.5% polyethylene glycol (PEG) (w/v %) on cell survival and recovery of hES cells after cryopreservation, and further investigated the role of the combination of Rho‐associated kinase (ROCK) inhibitor and p53 inhibitor on cell recovery during the subsequent culture. Compared with the conventional slow‐freezing method which uses 10% DMSO as a freezing solution and then cultured in the presence of ROCK inhibitor at the first day of culture, we found out that hES cell recovery was significantly enhanced by around 30 % (P < 0.05) by the new freezing solution. Moreover, at the first day of post‐thaw culture, the presence of 10 μM ROCK inhibitor (Y‐27632) and 1 μM pifithrin‐μ together further significantly improved cell recovery by around 20% (P < 0.05) either for feeder‐dependent or feeder‐independent culture. hES cells remained their undifferentiated status after using this novel protocol for cryopreservation and subsequent culture. Furthermore, this protocol is a scalable cryopreservation method for handling large quantities of hES cells. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2010     

Improved cryopreservation of bovine preimplantation embryos cultured in chemically defined medium

The aim of this study was to examine the effects of modifications to a standard slow freezing protocol on the viability of in vitro produced bovine embryos. Bovine oocytes were matured, fertilized with frozen-thawed semen, and presumptive zygotes cultured in defined two-step culture media. The standard freezing medium was 1.5M ethylene glycol (EG), 0.1M sucrose, 10% fetal bovine serum (FBS) in Dulbecco's phosphate buffered saline (D-PBS). A preliminary trial showed that in vitro produced embryos cryopreserved in this medium had a survival rate of 74.6% at 24h and 53.5% at 48 h post-thaw. Experiment 1 studied the effects of omitting the sucrose supplement or replacing it with 0.1M xylose. In Experiment 2, the effects of partial (0%, 25% or 50%) or total (100%) replacement of sodium chloride with choline chloride in the cryopreservation medium were examined (the medium with 100% replacement was designated CJ1). The effects of replacing the 10% FBS with 0.4% BSA or 0.4% lipid-rich BSA (Albumax I) in CJ1 was studied in Experiment 3. In Experiment 4, pregnancy/calving rates following the post-thaw transfer of in vitro produced embryos cryopreserved in the standard freezing medium were compared with those of in vitro and in vivo produced embryos cryopreserved in the improved medium (Albumax I in CJ1). Supplementation of the cryopreservation medium with 0.1M sucrose resulted in higher post-thaw survival rates at 24 h (71.3% versus 53.5 and 51.7%; P<0.05), 48 h (51.1% versus 45.3 and 40.2%), and 72 h (34.0% versus 24.4 and 23.0%) than 0.1M xylose or no supplement, respectively, in Experiment 1. Experiment 2 showed that embryos cryopreserved in the standard medium had poorer survival rates at 24 h (72.8% versus 86.5%; P<0.05), 48 h (53.1% versus 66.3%) or 72 h (28.4% versus 44.9%) than those frozen in CJ1. The post-thaw survival rate of embryos frozen in medium supplemented with Albumax I was better than that for the FBS or BSA supplements at 24h (92.0% versus 90.7 and 87.3%), 48 h (87.3% versus 76.9 and 70.9%; P<0.05), and 72 h (70.4% versus 49.1 and 46 4%; P<0.05; Experiment 3). In Experiment 4, in vitro produced embryos cryopreserved in CJ1 medium supplemented with Albumax I resulted in higher pregnancy rates at Day 35 (31.9% versus 22.9%) and Day 60 (24.1% versus 14.3%) of gestation, and calving rates (22.6% versus 10.0%; P<0.05) than similar embryos frozen in the standard medium. However, in vivo produced embryos cryopreserved in Albumax I in CJ1 resulted in higher pregnancy rates at Day 35 (50.7%; P<0.05) and Day 60 (45.1%; P<0.05) of gestation, and calving rate (43.7%; P<0.05). It was concluded that modification of the freezing medium by addition of lipid-rich BSA and replacing sodium chloride with choline chloride improves the post-thaw survival of in vitro produced embryos, and their viability post-transfer.     

Reduced glutathione content in human sperm is decreased after cryopreservation: Effect of the addition of reduced glutathione to the freezing and thawing extenders

In this study, total glutathione content was determined in human spermatozoa before and after cryopreservation. Total GSH in fresh semen was 4.47 ± 0.46 nmol/10⁸ cells. Following semen cryopreservation, GSH decreased to 1.62 ± 0.13 nmol/10⁸ cells, a 64% reduction (p < 0.01). This decrease in GSH content was associated with a decrease in sperm progressive motility (68% of reduction, p < 0.01). Addition of 1 mM GSH to the freezing extender increased the percentage of total motility and sperm viability. It also modified the motility pattern measured by CASA with changes in the straight-line and average path velocities and wobble of the curvilinear trajectory. Addition of GSH to the freezing media reduced spermatozoa ROS levels and increased the level of sulfhydryl groups on membrane proteins. Nevertheless, no effect of GSH addition on lipid membrane disorder or chromatin condensation was detected. Addition of 1 or 5 mM GSH to the thawing media increased the percentage of motile and progressively motile spermatozoa, but no effect on viability was detected. In conclusion, the antioxidant defensive capacity of the GSH is severely altered by the freeze–thawing process. The addition of GSH to the freezing and thawing extender could be of partial and limited benefit in improving the function of frozen human spermatozoa.     

An investigation into the similarities and differences governing the cryopreservation success of koala (Phascolarctos cinereus: goldfuss) and common wombat (Vombatus ursinus: shaw) spermatozoa

The aim of this study was to determine the relative cryopreservation success of koala and wombat spermatozoa and to investigate reasons for their respective post-thaw survival by examining the sperm's response to a range of osmotic media and determining the presence and distribution of F-actin. An hypothesis was proposed that F-actin may be imparting a degree of structural inflexibility to the koala sperm plasma membrane; hence, exposure of spermatozoa to cytochalasin D (5 microM), a F-actin depolymerisation agent, should result in increased plasticisation of the membrane and greater tolerance of cell volume changes that typically occur during cryopreservation. In experiment 1, koala (n = 4) and wombat (n = 4) spermatozoa packaged in 0.25 mL straws were cryopreserved using two freezing rates (fast-3 cm above liquid N2 interface; slow-6 degrees C/min in a freezing chamber) and two glycerol concentrations (8 and 14% v/v) in a tris-citrate glucose buffer with 15% (v/v) egg yolk. Wombat spermatozoa showed better (P < 0.01) post-thaw survival (% motile, % intact plasma membranes, % decondensed sperm heads) than koala spermatozoa. When exposed to media of varying osmolality, koala spermatozoa were less tolerant (% intact plasma membrane) of hyper-osmotic conditions (920 and 1410 mOsmol/kg) than wombat spermatozoa. F-actin was localised using a monoclonal antibody but only found in the wombat sperm head. When koala and wombat spermatozoa were exposed to media of varying osmolality, cytochalasin D had no beneficial effect on sperm survival (% intact plasma membranes). This study has demonstrated that wombat spermatozoa are highly tolerant of cryopreservation when compared to koala sperm but that spermatozoa from both species show greatest post-thaw survival when frozen slowly in 14% glycerol. Koala sperm are also particularly susceptible to hyper-osmotic environments but lack of detectable F-actin in the koala spermatozoan suggests that poor cryopreservation success in this species is unlikely to be associated with F-actin induced plasma membrane inflexibility.     

Cryopreservation of cell suspension cultures of <Emphasis Type="Italic">Taxus</Emphasis> × <Emphasis Type="Italic">media</Emphasis> and <Emphasis Type="Italic">Taxus floridana</Emphasis>

Different lines of cell suspension cultures of Taxus × media Rehd. and Taxus floridana Nutt. were cryopreserved with a two-step freezing method using a simple and inexpensive freezing container instead of a programmable freezer. Four to seven days old suspension cell cultures were precultured in growth medium supplemented with 0.5 M mannitol for 2 d. The medium was then replaced with cryoprotectant solution (1 M sucrose, 0.5 M glycerol and 0.5 M dimethylsulfoxide) and the cells incubated on ice for 1 h. Before being plunged into liquid nitrogen, cells were frozen with a cooling rate of approximately −1 °C per min to −80 °C. The highest post-thaw cell viability was 90 %. The recovery was line dependent. The cryopreservation procedure did not alter the nuclear DNA content of the cell lines. The results indicate that cryopreservation of Taxus cell suspension cultures using inexpensive freezing container is possible.     

Effect of amino acids on cryopreservation of cynomolgus monkey (Macaca fascicularis) sperm

The effects of three amino acids (proline, glutamine, and glycine) added to the freezing medium Tes-Tris-egg yolk (TTE) for cryopreservation of cynomolgus monkey (Macaca fascicularis) spermatozoa were studied. This is the first report on the effects of amino acids on nonhuman primate sperm cryopreservation. The addition of 5mM proline, 10mM glutamine, and 10 or 20mM glycine each significantly improved post-thaw sperm motility and membrane and acrosome integrity compared with the control (TTE alone). However, a significant decrease in motility and membrane/acrosome integrity was observed when amino acid concentrations increased to 60mM for proline and glutamine, and 80 mM for glycine. The results suggest that adding a limited amount of amino acids to the freezing media is beneficial for freezing cynomolgus monkey sperm.     

Cooling rate optimization for zebrafish sperm cryopreservation using a cryomicroscope coupled with SYBR14/PI dual staining

The Zebrafish has gained increased popularity as an aquatic model species in various research fields, and its widespread use has led to numerous mutant strains and transgenic lines. This creates the need to store these important genetic materials as frozen gametes. Sperm cryopreservation in zebrafish has been shown to yield very low post-thaw survival and many protocols suffer from great variability and poor reproducibility. The present study was intended to develop a freezing protocol that can be reliably used to cryopreserve zebrafish sperm with high post-thaw survival. In particular, our study focused on cooling protocol optimization with the aid of cryomicroscopy. Specifically, sperm suspended in 8% DMSO or 4% MeOH were first incubated with live/dead fluorescent dyes (SYBR14/PI) and then cooled at various rates from 4 °C to different intermediate stopping temperatures such as −10, −20, −30 and −80 °C before rewarming to 35 °C at the rate of 100 °C/min. %PI-positive (dead) cells were monitored throughout the cooling process and this screening yielded an optimal rate of 25 °C/min for this initial phase of freezing. We then tested the optimal cooling rate for the second phase of freezing from various intermediate stopping temperatures to −80 °C before plunging into liquid nitrogen. Our finding yielded an optimal intermediate stopping temperature of −30 °C and an optimal rate of 5 °C/min for this second phase of freezing. When we further applied this two-step cooling protocol to the conventional controlled-rate freezer, the average post-thaw motility measured by CASA was 46.8 ± 6.40% across 11 males, indicating high post-thaw survival and consistent results among different individuals. Our study indicates that cryomiscroscopy is a powerful tool to devise the optimal cooling conditions for species with sperm that are very sensitive to cryodamage.     

Scalable culture and cryopreservation of human embryonic stem cells on microcarriers

As a result of their pluripotency and potential for unlimited self‐renewal, human embryonic stem cells (hESCs) hold tremendous promise in regenerative medicine. An essential prerequisite for the widespread application of hESCs is the establishment of effective and efficient protocols for large‐scale cell culture, storage, and distribution. At laboratory scales hESCs are cultured adherent to tissue culture plates; these culture techniques are labor‐intensive and do not scale to high cell numbers. In an effort to facilitate larger scale hESC cultivation, we investigated the feasibility of culturing hESCs adherent to microcarriers. We modified the surface of Cytodex 3 microcarriers with either Matrigel or mouse embryonic fibroblasts (MEFs). hESC colonies were effectively expanded in a pluripotent, undifferentiated state on both Matrigel‐coated microcarriers and microcarriers seeded with a MEF monolayer. While the hESC expansion rate on MEF‐microcarriers was less than that on MEF‐plates, the doubling time of hESCs on Matrigel‐microcarriers was indistinguishable from that of hESCs expanded on Matrigel‐coated tissue culture plates. Standard hESC cryopreservation methodologies are plagued by poor viability and high differentiation rates upon thawing. Here, we demonstrate that cryopreservation of hESCs adherent to microcarriers in cryovials provides a higher recovery of undifferentiated cells than cryopreservation of cells in suspension. Together, these results suggest that microcarrier‐based stabilization and culture may facilitate hESC expansion and storage for research and therapeutic applications. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

The efficacy of ice recrystallization inhibitors in rat lung cryopreservation using a low cost technique for ex vivo subnormothermic lung perfusion

Although lung transplant remains the only option for patients with end-stage lung failure, short preservation times result in an inability to meet patient demand. Successful cryopreservation may ameliorate this problem; however, very little research has been performed on lung cryopreservation due to the inability to prevent ice nucleation or growth. Therefore, this research sought to characterize the efficacy of a small-molecule ice recrystallization inhibitor (IRI) for lung cryopreservation given its well-documented ability to control ice growth.Sprague-Dawley heart-lung blocks were perfused at room temperature using a syringe-pump. Cytotoxicity of the IRI was assessed through the subsequent perfusion with 0.4% (w/v) trypan blue followed by formalin-fixation. Ice control was assessed by freezing at a chamber rate of −5 °C/min to −20 °C and cryofixation using a low-temperature fixative. Post-thaw cell survival was determined by freezing at a chamber rate of −5 °C/min to −20 °C and thawing in a 37 °C water bath before formalin-fixation. In all cases, samples were paraffin-embedded, sliced, and stained with eosin.The IRI studied was found to be non-toxic, as cell membrane integrity following perfusion was not significantly different than controls (p = 0.9292). Alveolar ice grain size was significantly reduced by the addition of this IRI (p = 0.0096), and the addition of the IRI to DMSO significantly improved post-thaw cell membrane integrity when compared to controls treated with DMSO alone (p = 0.0034).The techniques described here provide a low-cost solution for rat ex vivo lung perfusion which demonstrated that the ice control and improved post-thaw cell survival afforded by IRI-use warrants further study.