Influence of the thawing rate on the cryopreservation of semen from collared peccaries (Tayassu tajacu) using Tris-based extenders

The objective was to evaluate the influence of the thawing rate on the quality of frozen-thawed (cryopreserved in Tris-based extenders) semen obtained from collared peccaries (Tayassu tajacu). Semen from 13 sexually mature collared peccaries males were collected by electroejaculation, and evaluated for motility, vigor, sperm viability, membrane integrity, and sperm morphology. Semen was divided in two equal portions: the first was diluted in Tris-fructose and the other in Tris-glucose, with egg yolk (20%) and glycerol (3%) added to each portion. Extended semen was frozen in liquid nitrogen and thawed using two thawing protocols (37 °C for 1 min or 55 °C for 7 s, followed by an additional 30 s at 37 °C). There were no significant differences between the two extenders after extension, chilling, or glycerol addition. After thawing at 37 °C, there were 37.9 ± 4.2% and 28.5 ± 5.1% motile spermatozoa for samples extended in Tris-fructose and Tris-glucose, respectively, with 33.8 ± 3.7% and 28.2 ± 3.5% motile spermatozoa after thawing at 55 °C (no significant differences). Furthermore, there were no significant interactions between extenders and thawing protocols for any semen end point. In conclusion, semen from collared peccaries was successfully cryopreserved in Tris-based extenders and thawed with two protocols (37 °C for 1 min or 55 °C for 7 s).     

Establishment of a novel method for cryopreservation and thawing of the mouse ovary

During cryopreservation of ovarian tissue, the conditions of freezing and thawing are big factors controlling the survival rate of oocytes obtained. However, the conditions and procedures as they pertain to ovarian follicles and oocytes have not been established. Thus, we tried to determine the appropriate freeze-thaw times using the vitrification method with ethylene glycol and DMSO as cryoprotective agents and dd Y female mouse ovaries. The maturity rate from GV to the metaphase-II (MII) stage was 62.8% with ethylene glycol and 69.3% using DMSO, while the controls (GV oocytes obtained from a fresh ovary) showed a maturation rate of 83.6% (46/55). MII oocytes obtained by culturing GV oocytes in vitro showed a 64.3% (18/28) fertility rate via in vitro fertilization and a developmental rate into a 2 cell stage embryo of 35.7% (10/28) and into a 4-cell stage, 7.1% (2/28). However, development beyond the 8 cell stage embryo was not observed. A significant difference was not recognized between control (fresh) and ovarian tissues that had been frozen/thawed with respect to their ability to produce hormones. It is concluded that the vitrification method was effective for both freezing ovarian tissues and preserving its functional ability (maturation and capacitation).     

Development of a reliable low-cost controlled cooling rate instrument for the cryopreservation of hematopoietic stem cells

Background aimsAn optimal cooling rate is one of the critical factors influencing the survival of cells during cryopreservation. We describe a novel device, called the box-in-box, that has been developed for optimal cryopreservation of human hematopoietic stem cells (HSC).MethodsThis work presents the design of the device, a mathematical formulation describing the expected temperature histories of samples during the freezing process, along with actual experimental results of thermal profile tests. In experiments, when the box-in-box device was transferred from room temperature to a ?80°C freezer, a cooling rate of ?1 to ?3.5°C/min, which has been widely used for the cryopreservation of HSC, was achieved. In order to evaluate this device further, HSC cryopreservation was compared between the box-in-box device and a commercially available controlled-rate freezer (CryoMed).ResultsThe experimental data, including total cell population and CD34⁺ hematopoietic progenitor cell recovery rates, viability and cell culture colony assays, showed that the box-in-box worked as well as the CryoMed instrument. There was no significant difference in either survival rate or the culture/colony outcome between the two devices.ConclusionsThe box-in-box device can work as a cheap, durable, reliable and maintenance-free instrument for the cryopreservation of HSC. This concept of a box-in-box may also be adapted to other cooling rates to support cryopreservation of a wide variety of tissues and cells.     

Expression of immunological markers on leukemic cells before and after cryopreservation and thawing

We have studied the effects of cryopreservation on the viability and on the expression of surface antigens of acute leukemia cells. Marrow samples were obtained at initial diagnosis from 89 patients with acute myeloid leukemia (AML), acute undifferentiated leukemia (AUL), and acute lymphoid leukemia (ALL). In AML, the mean viability was greater than 90% in the types M1, M4, and M5 of the French-American-British classification, 79% in M2, and 3% in M3 types. The viability was 74% in AUL. In ALL, the viability was 95% for pre-B leukemias, but only 2% in T-cell leukemias. The expression of myeloid antigens was studied before and after freezing and thawing using three monoclonal antibodies (NHL30.5, against poorly differentiated granulocytic leukemias, VIMC6 against differentiated granulocytic leukemias and granulocytes; and UCHM1 or CRIS-6, against monocytic leukemias and monocytes). The percentage of cells stained by NHL30.5 and UCHM1 or CRIS-6 was very similar before and after cryopreservation. For VIMC6, the mean staining after cryopreservation was 60% of the initial one. In pre-B ALL, the stainings by anti common ALL antigen before and after cryopreservation were also very similar. We conclude that leukemic cryopreserved cells are suitable for immunologic studies. The recovery is, however, very low in promyelocytic AML and T-cell ALL.     

Transplantation of articular cartilage following a step-cooling cryopreservation protocol

Using a step-cooling cryopreservation protocol that held the tissue 60 min at -4 degrees C, 30 min at -8 degrees C, and 10 min at -40 degrees C before plunging into liquid nitrogen, we were able to get a substantial improvement in the magnitude and pattern of chondrocyte recovery following cryopreservation, achieving postthaw recoveries of 62 +/- 13%. These results are consistent with the hypothesis that ice growth within articular cartilage is planar, but they provide no direct support for that hypothesis. Transplanting (step-cooled) cryopreserved osteochondral allografts into adult Suffolk/Romanoff crossbred sheep for periods of 3 months and 1 year further tested the efficacy of the cryopreservation protocol. Unfortunately, the cryoinjury sustained by the chondrocytes during cryopreservation, although apparently nonlethal immediately after thawing in many cases, was not innocuous in the long term. The presence of large clusters of chondrocytes at 1 year after transplantation illustrates that cryoinjury not detectable with a membrane integrity assay can still have far-reaching effects on transplanted tissue.     

The effect of straw size, freezing rate and thawing rate upon post-thaw quality of dog semen

Optimal freeze-thaw processes for dog semen will yield a maximal number of insemination doses from an ejaculate. The objectives of this study were to compare the effects of two straw sizes (0.25- and 0.5-mL French), two freezing rates (straws suspended 3.5 and 8 cm above liquid nitrogen) and two thawing rates (in water at 37 and 70 degrees C) upon post-thaw quality of dog semen, and to determine the best treatment combination. Quality was expressed in terms of the percentage progressively motile sperm 5 and 60 min after thawing and the percentage of abnormal acrosomes 5 min after thawing. One ejaculate from each of eight dogs was frozen. Two straws from each ejaculate were exposed to each of the eight treatment combinations. Data were analyzed by means of a repeated measures factorial analysis of variance and means compared using Bonferroni's test. Dog affected each response variable (P < 0.01). Neither straw size, nor freezing rate, nor thawing rate affected motility 5 min after thawing (P > 0.05). Half-milliliter straws resulted in 5.7% more progressively motile sperm 60 min after thawing and 6.5% fewer abnormal acrosomes than 0.25-mL straws (P < 0.05, n = 64). The percentage progressively motile sperm 60 min after thawing tended to be higher for semen thawed at 70 degrees C compared to 37 degrees C (P < 0.06, n = 64). Semen thawed in water at 70 degrees C had 6.6% fewer abnormal acrosomes than semen thawed in water at 37 degrees C (P < 0.05, n = 64). Freezing rate interacted with thawing rate (P < 0.05) in their effects upon acrosomal morphology and freezing 8 cm above liquid nitrogen and thawing in water at 70 degrees C was best. Dog semen should be frozen in 0.5-mL straws, 8 cm above liquid nitrogen and thawed in water at 70 degrees C.     

Effect of cryopreservation protocol on postthaw characteristics of stallion sperm

Three ejaculates from each of eight stallions were subjected to cryopreservation in a milk/egg yolk-based freezing extender or an egg yolk-based freezing extender. Semen was exposed to a fast prefreeze cooling rate (FAST; semen immediately subjected to cryopreservation) or a slow prefreeze cooling rate (SLOW; semen pre-cooled at a controlled rate for 80 min prior to cryopreservation). Postthaw semen was diluted in initial freezing medium (FM) or INRA 96 (IMV Technologies, L'Aigle, France) prior to analysis of 10 experimental end points: total motility (MOT; %), progressive motility (PMOT; %), curvilinear velocity (VCL; μm/s), linearity (LIN; %), intact acrosomal and plasma membranes (AIMI; %), intact acrosomal membranes (AI; %), intact plasma membranes (MI; %), and DNA quality. Eight of 10 experimental endpoints (MOT, PMOT, average-path velocity [VAP], mean straight-line velocity [VSL], LIN AIMI, AI, and MI) were affected by extender type, with egg yolk-based extender yielding higher values than milk/egg yolk-based extender (P < 0.05). Exposure of extended semen to a slow prefreeze cooling period resulted in increased values for six of eight endpoints (MOT, PMOT, VCL, AIMI, AI, and MI), as compared with a fast prefreeze cooling period (P < 0.05). As a postthaw diluent, INRA 96 yielded higher mean values than FM for MOT, PMOT, VCL, average-path velocity, and mean straight-line velocity (P < 0.05). Treatment group FM yielded slightly higher values than INRA 96 for LIN and MI (P < 0.05). In conclusion, a slow prefreeze cooling rate was superior to a fast prefreeze cooling rate, regardless of freezing extender used, and INRA 96 served as a satisfactory postthaw diluent prior to semen analysis.     

The protocol for the isolation and cryopreservation of osteoclast precursors from mouse bone marrow and spleen

Osteoclasts are responsible for physiological bone remodeling as well as pathological bone destruction in osteoporosis, periodontitis and rheumatoid arthritis, and thus represent a pharmacological target for drug development. We aimed to characterize and compare the cytokine-induced osteoclastogenesis of bone marrow and spleen precursors. Established protocols used to generate osteoclasts from bone marrow were modified to examine osteoclastogenesis of the spleen cells of healthy mice. Osteoclast formation was successfully induced from spleen precursors using receptor activator of nuclear factor κB ligand (50 ng/ml) and macrophage colony stimulating factor (50 ng/ml). Compared to bone marrow cultures, differentiation from spleen required a longer cultivation time (9 days for spleen, as compared to 5 days for marrow cultures) and a higher plating density of non-adherent cells (75,000/cm² for spleen, as compared to 50,000/cm² for bone marrow). Osteoclasts generated from spleen precursors expressed osteoclast marker genes calcitonin receptor, cathepsin K and matrix metalloproteinase 9 and were capable of resorbing hydroxyapatite. The differentiation capacity of spleen and bone marrow precursors was comparable for BALB/c, C57BL/6 and FVB mice. We also developed and tested a cryopreservation protocol for the osteoclast precursors. While 70–80 % of cells were lost during the first week of freezing, during the subsequent 5 weeks the losses were within 2–5 % per week. Osteoclastogenesis from the recovered bone marrow precursors was successful up to 5 weeks after freezing. Spleen precursors retained their osteoclastogenic capacity for 1 week after freezing, but not thereafter. The described protocol is useful for the studies of genetically modified animals as well as for screening new osteoclast-targeting therapeutics.     

The rate of development of a microsporidan in moth cell culture.

A microsporidan parasite of the forest tent caterpillar Malacosoma disstria infected cells and replicated in vitro in a line from the moth Heliothis zea. After spore germination, the incidence of infected cells increased with time until leveling off with sporulation. During the first 24 hr, there was a static number of parasites, followed by a 2-day logarithmic growth phase during which the population doubled five to six times. The growth rate was 9 to 11 hr per population doubling. Sporulation commenced on day 3, and 40 to 50 spores were recovered from each infected cell. The life cycle was completed within 6 days, culminating in spores that were infectious for cultured cells. The antibiotic fumagillin at a dose of 1 ppm in the culture medium was microsporida-static.     

The cryopreservation of Chlorella 1. Interactions of rate of cooling,protective additive and warming rate

The cryoprotective additives glycerol and dimethylsulphoxide were found to be toxic to Chlorella cells at concentrations greater then 2.5% w/v. Polyvinylpyrrolidone, was not damaging up to a concentration of 15% w/v. Chlorella 211/7a had a recovery rate greater than 95% at all rates of cooling studied. With Chlorella 211/8h the survival was lower than 0.1% at all rates examined. The addition of dimethylsulphoxide (5% w/v) to Chlorella 211/8h increased the recovery, particularly at the faster rates of cooling; with polyvinylpyrrolidone (10% w/v) there was an optimum range of cooling rate.Cells of Chlorella 211/7a from the exponential phase of growth were found to be damaged both by a temperature reduction from 25°C to 0°C (thermal shock) and by freezing and thawing. In contrast cells from the stationary phase of growth were resistant to these stresses.Abbreviations DMSO dimethylsulphoxide - HEPES N-2-hydroxyethylpiperazine-N-2-ethansulphonic acid - PVP polyvinylpyrrolidone     

Large unit red cell cryopreservation with hydroxyethyl starch.

Full units of red blood cells frozen with 14% hydroxyethyl starch (HES) yield cell recoveries near 97% and saline stabilities greater than 80%. Potassium leaves the cells during the freeze-thaw cycle and increases the extracellular concentration of this ion to near 35 meq/l. Unwashed cells (those with plasma present) and saline washed cells yield similar results. Storage of the thawed red cells at 4 °C for up to 48 hr causes little change in the cells.Examination by electron microscopy of samples from thawed units reveals some red cells with portions of their membrane missing. We believe this represents damage from the freeze-thaw cycle and also that all free supernatant hemoglobin does not arise from completely lysed cells.     

Optimization of a working cryopreservation protocol for Pinus patula embryogenic tissue

Summary The protocol currently used to cryopreserve Pinus patula embryogenic tissue was investigated in an attempt to improve and optimize the recovery of tissue. This investigation describes two aspects that influence tissue recovery after cryopreservation: (i) the effects of precooling tissue prior to immersion into liquid nitrogen; and (ii) whether the choice of supports onto which the recovered tissue is suspended improved the recovery rate. Results indicated that precooling tissue to −70°C prior to immersion into liquid nitrogen was superior to precooling to −30°C or direct immersion in liquid nitrogen (−196°C). Tissue recovery improved when polyester grids were used as supports, and was slowest on filter paper supports.     

Automated image processing as an analytical tool in cell cryopreservation for bioprocess development

The continuous availability of cells with defined cell characteristics represents a crucial issue in the biopharmaceutical and cell therapy industry. Here, development of cell banks with a long-term stability is essential and ensured by a cryopreservation strategy. The strategy needs to be optimized for each cell application individually and usually comprises controlled freezing, storage at ultra-low temperature, and fast thawing of cells. This approach is implemented by the development of master and working cell banks. Currently, empirical cryopreservation strategy development is standard, but a knowledge-based approach would be highly advantageous. In this article, we report the development of a video-based tool for the characterisation of freezing and thawing behaviour in cryopreservation process to enable a more knowledge-based cryopreservation process development. A successful tool validation was performed with a model cryopreservation process for the β-cell line INS-1E. Performance was evaluated for two working volumes (1.0 mL and 2.0 mL), based on freezing-thawing rates (20 °C to − 80 °C) and cell recovery and increase of biomass, to determine tool flexibility and practicality. Evaluation confirmed flexibility by correctly identifying a delay in freezing and thawing for the larger working volume. Further more, a decrease in cell recovery from 0.94 (± 0.14) % using 1.0 mL working volume to 0.61 (± 0.05) % using a 2.0 mL working volume displays tool practicality. The video-based tool proposed in this study presents a powerful tool for cell-specific optimisation of cryopreservation protocols. This can facilitate faster and more knowledge-based cryopreservation process development

Graphical abstract

In this study, a video-based analytical tool was developed for the characterisation of freezing and thawing behaviour in cryopreservation process development. Evaluation of the practicality and flexibility of the developed tool was done based on a scale-up case study with the cell line INS-1E. Here, the influence of sample working volume on process performance was investigated. Increasing the volume from 1to 2 mL led to a delay in freezing and thawing behaviour which caused cell recovery loss. We believe that the developed tool will facilitate more directed and systematic cryopreservation process development.

     

Slow-freezing cryopreservation of neural stem cell spheres with different diameters

Neural stem cells (NSCs) are of great value for clinical application and scientific research. The development of efficient cryopreservation protocols could significantly facilitate the storage and transportation for clinic applications. The objective of the present study is to improve the survival rate and viability of NSCs. Neural stem cells with three states of single-cell suspension, NSC spheres with diameters of 30-50 μm and 80-100 μm, were cryopreserved by slow-freezing method with the cryoprotective agent (CPA) of dimethyl sulfoxide (Me₂SO), respectively. Then the post-thawing NSCs were tested for the survival rate and the differentiation ability. As a result, NSC spheres with diameter of 80-100 μm and Me₂SO concentration of 8% achieve the survival rate of 82.9%, and the NSCs still sustain the multi-differentiation potentiality. These results indicated that both the subtle interaction among NSCs and sphere diameters may affect the survival rate together.     

Manifestations of cell damage after freezing and thawing

The nature of the primary lesions suffered by cells during freezing and thawing is unclear, although the plasma membrane is often considered the primary site for freezing injury. This study was designed to investigate the nature of damage immediately after thawing, by monitoring several functional tests of the cell and the plasma membrane. Hamster fibroblasts, human lymphocytes, and human granulocytes were subjected to a graded freeze-thaw stress in the absence of cryoprotective compound by cooling at -1 degree C/min to a temperature between -10 and -40 degrees C, and then were either warmed directly in water at 37 degrees C or cooled rapidly to -196 degrees C before rapid warming. Mitochondrial function in the cells was then assessed using 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl-tetrazolium bromide (MTT), fluorescein diacetate (FDA), colony growth, and osmometric response in a hypertonic solution. Cells behaved as osmometers after cooling at -1 degree C/min to low temperatures at which there were no responses measured by other assays, indicating that the plasma membrane is not a primary site for injury sustained during slow cooling. These results also indicate that the FDA test does not measure membrane integrity, but reflects the permeability of the channels through which fluorescein leaves the cells. Fewer cells could respond osmotically after cooling under conditions where intracellular freezing was likely, implying that the plasma membrane is directly damaged by the conditions leading to intracellular freezing. A general model of freezing injury to nucleated mammalian cells is proposed in which disruption of the lysosomes constitutes the primary lesion in cells cooled under conditions where the cells are dehydrated at low temperatures.