Importance of a three-stage cooling regime and induced ice nucleation during cryopreservation on colony-forming potential and differentiation in mesenchymal stem progenitor cells from human fetal liver

Colony-forming activity, as well as osteogenic and adipogenic capacities of primary human fetal liver (HFL) mesenchymal stem or progenitor cells (MSCs) were compared before and after cryopreservation using a standard three-step cooling protocol (Cryo3-S) or the same protocol with induced ice nucleation (Cryo3-IIN) and 5% and 10% w/v dimethyl sulphoxide (Me?SO). Cell viability, using the Cryo3-S protocol with 5 % and 10 % Me?SO, was about 60 to 70 % as assessed by the trypan blue staining method, but the ability to undergo growth in culture and form colonies was completely lost. Cryopreservation using Cryo3-IIN resulted in conservation of colony-forming MSCs. Colony-forming efficiency (CFE) of the cell samples cryopreserved with Cryo3-IIN and 5 % Me?SO was on average 0.4 +/- 0.1 colonies per 10? cells, whereas with 10% Me?SO 1.6 +/- 0.7 colonies were obtained. HFL MSCs recovered after cryopreservation in the both groups demonstrated capacity to be expanded and induced into either osteogenic or adipogenic differentiation.     

Cryopreservation of black iris (Iris nigricans) somatic embryos by encapsulation-dehydration

Somatic embryos of black iris (Iris nigricans) were cryopreserved using encapsulation-dehydration. Embryos size of 2-4 mm gave the highest survival after cryopreservation. Preculturing embryos on medium containing 0.75 M sucrose for 3 d at 22 degree C, then at 30 degree C for 1 d ensured maximum survival (60%). Viable embryos were brown in color after cryopreservation and during early recovery while dead ones where light brown or creamy. The first sign of regrowth was noted after 15 d. The final regrowth percentage of living embryo was 90% after 35 d. Only 10% of the embryos in all treatments showed secondary embryogenesis. Direct sowing in vivo of cryopreserved embryos was not successful in achieving germination.     

Cryopreservation of shoot tips of Picrorhiza kurroa Royle ex Benth,an indigenous endangered medicinal plant,through vitrification

The cryopreservation of shoot tips of Picrorhiza kurroa Royle ex Benth (IC 266698), an endangered medicinal plant of India was investigated. Shoot tips (about 1 mm in length) excised from four-week-old proliferating shoot cultures were precultured on MS medium supplemented with various osmotica before dehydrating with PVS2 solution at 0 degrees C. The dehydrated shoot tips were directly immersed in LN2. Following cryopreservation, and after rapid rewarming at 45 degrees C, shoot tips were quickly washed with 1.2 M sucrose solution and then plated on solidified shoot culture medium. Shoot tips were successfully cryopreserved by vitrification, when they were precultured on medium supplemented with 5% DMSO at 4 degrees C for two days before dehydrating in PVS2 for 10-20 minutes at 0 degrees C. Average survival in terms of normal shoot formation after 4 wks of plating was about 20% without callus formation. Cold hardening of shoot cultures for four weeks at 4 degrees C significantly improved the survival and shoot regeneration of cryopreserved shoot tips to 70% and 35%, respectively.     

Importance of explant size and origin and of preconditioning treatments for cryopreservation of garlic shoot apices by vitrification

This paper investigates the effect of the origin and size of the explants employed and of the preconditioning (cold acclimation, preculture) and loading treatments on survival and regeneration of cryopreserved garlic shoot apices using vitrification with the PVS3 vitrification solution. Both the origin and size of explants had a significant effect on regeneration of cryopreserved apices. Higher regeneration was generally observed with apices excised from bulbs and bulbils, followed by cloves, and those originated from larger propagules regrew more rapidly. Smaller apices (1.5 or 3.0 mm in diameter) displayed higher regeneration than large ones (4.5 mm in diameter). Cold acclimation at 5 degree C of apices before freezing had no positive effect on regeneration after cryopreservation. Preculture of apices at 10 or 23 degree C for more than 3 days had a detrimental effect on regeneration. The optimal sucrose concentration in the preculture medium was 0.3-0.5 M. Loading apices for 30 or 60 min at 23 degree C in medium containing 2 M glycerol + 0.4 M sucrose or 1 M glycerol + 0.8 M sucrose had no effect on regeneration after cryopreservation, in comparison with apices cryopreserved without loading treatment. Under optimal conditions, regeneration of cryopreserved apices sampled from large cloves was above 90 percent.     

The short-term storage and cryopreservation of spermatozoa from hylid and myobatrachid frogs

The short-term storage (at 0 degrees C) and cryopreservation of spermatozoa may be useful for providing gametes for fertilisations performed in programmes for the conservation and management of endangered amphibians. The current study was undertaken to examine the applicability of amphibian spermatozoa storage protocols developed with the cane toad (Bufo marinus) to a wider range of amphibian species, with a view to ultimately using these protocols for endangered species. In Australia, at least 29 species of recently extinct or endangered frogs are from the families the Myobatrachidae and the Hylidae. This study investigated the applicability of short-term storage and cryopreservation protocols developed for cane toad (Bufo marinus) spermatozoa to those of hylid and myobatrachid species. Storage of spermatozoa in intact testes or in suspensions for six days at 0 degrees C showed spermatozoa maintained higher motility in suspensions than those in testes, and hylid spermatozoa maintained greater motility than myobatrachid spermatozoa. However, the protocols for optimal storage at 0 degrees C varied with testis size when spermatozoa were stored in whole testes. Spermatozoa from 13 frog species representing both families were cryopreserved using sucrose as diluent with Me(2)SO or glycerol as cryoprotectants. After cryopreservation hylid spermatozoa showed a greater recovery than myobatrachid spermatozoa and Me(2)SO provided higher recovery than glycerol. The freeze-thaw recovery of spermatozoa was independent of testes weight of the species studied. These results show spermatozoa from the Hylidae and Myobatrachidae may be stored both in the short-term (at 0 degrees C) and long-term by cryopreservation using protocols established for B. marinus.     

Studies on the toxicity of dimethyl sulfoxide, ethylene glycol, methanol and glycerol to loach (Misgurnus fossilis) sperm and the effect on subsequent embryo development

The process of sperm cryopreservation consists of several steps: equilibration of sperm in cryoprotectant medium, freezing of sperm to subzero temperatures, low temperature storage and thawing of the sperm suspension. It has been shown that cryopreservation can cause some damage to the genetic material of cells although the mechanism and significance of these changes are still unknown. The aim of this work was to study the effect of cryoprotectant equilibration process on genetic damage of Loach (Misgurnus fossilis) sperm, using embryo survival as an indicator. Decrease in embryo survival after the 20th stage is generally believed to result from the failure in the genome function of embryos. In the first set of the experiments, Loach sperm were equilibrated in cryoprotectants Me2SO, ethylene glycol, methanol and glycerol (0.6, 1.2, 2.5 M) for 60 min at 10 degree C. The effect of cryoprotectant equilibration on sperm was evaluated based on the survival of embryos derived from cryoprotectant treated sperm. Embryo survival was evaluated at the following stages: 7th, 14th, 17th, 20th, 23rd, 26th, 31st, 34th, 35th, 36th and 37th. Cryoprotectants at concentrations greater than 1.2 M had significant effect on the survival of the embryos after the 20th stage. The effect of glycerol was the most significant with 64.8 +/- 2.4% of embryos survival compared to 77.0 +/- 2.4% for control. Me2SO treatment also effects embryo survival significantly. Possible mechanisms of the genetic instability of cryoprotectants are discussed.     

Diffusion of dimethyl sulfoxide in tissue engineered collagen scaffolds visualized by computer tomography

Cryopreservation is a convenient method for long-term preservation of natural and engineered tissues in regenerative medicine. Homogeneous loading of tissues with CPAs, however, forms one of the major hurdles in tissue cryopreservation. In this study, computer tomography (CT) as a non-invasive imaging method was used to determine the effective diffusion of Me2SO in tissue-engineered collagen scaffolds. The dimensions of the scaffolds were 30 x 30 x 10 mm3 with a homogeneous pore size of 100 microm and a porosity of 98%. CT images were acquired after equilibrating the scaffolds in phosphate buffered saline (PBS) and transferring them directly in 10% (v/v)Me2SO. The Me2SO loading process of the scaffold could thus be measured and visualized in real time. The experimental data were fitted using a diffusion equation. The calculated effective diffusion constant for Me2SO in the PBS loaded scaffold was determined from experimental diffusion studies to be 2.4 x 10(-6) cm2/s at 20 degrees C.     

Effect of cryopreservation on the structural and functional integrity of cell membranes of sugarcane (Saccharum sp.) embryogenic calluses

In this paper, we investigated if the differences consistently noted in survival and plantlet production between cryopreserved and non-cryopreserved, control sugarcane embryogenic calluses were related to modifications induced during cryopreservation in the structural and functional integrity of cell membranes. For this, the evolution of electrolyte leakage, lipid peroxidation products and cell membrane protein contents was measured during 5 d after cryopreservation. Differences between control and frozen calluses were observed only during the first 2 (electrolyte leakage) or 3 d (lipid peroxidation products and membrane protein content) after freezing. It was not possible to link these differences with the differences noted in survival and plant production between control and cryopreserved calluses. Additional studies are thus needed to elucidate which biochemical factors, linked to survival and plantlet regeneration, are affected by cryopreservation.     

Cryopreservation of Citrus aurantifolia seeds and embryonic axes using a desiccation protocol

The desiccation and freezing tolerance of seeds, with and without testas, and embryonic axes of Citrus aurantifolia were investigated. Seeds were desiccated with silica gel, under the laminar air flow cabinet or by placing them on a laboratory bench. Whatever the desiccation method employed, survival before and after cryopreservation was higher for seeds without testas. When freezing intact seeds, the highest survival percentage (41.3 %) was achieved after desiccation to 7.3 % moisture content (fresh weight basis) on the laboratory bench. Survival of seeds cryopreserved without testas could reach up to 85 % after desiccation under the laminar air flow cabinet or on the laboratory bench, corresponding to moisture contents of 7.1 and 4.5 %, respectively. After desiccation with silica gel, survival reached a maximum of 60.0 %, for a seed moisture content of 3.3 %. Survival of control embryonic axes was high (80-100 %) whatever the sucrose concentration in the preculture medium and the duration of the desiccation period. After cryopreservation, no survival was noted with embryonic axes, which had not been precultured nor desiccated. Survival of non-desiccated embryonic axes after cryopreservation increased progressively in line with increasing sucrose concentrations in the preculture medium, from 7.5 % with 0.1 M sucrose to 77.5 % with 0.7 M sucrose. Survival of desiccated and cryopreserved embryos was always high, whatever the preculture treatment and desiccation period, ranging from 55.8 % to 92.5 %.     

Protective effect of transgenic expression of porcine heat shock protein 70 on hypothalamic ischemic and oxidative damage in a mouse model of heatstroke

Background  

Transgenic mice have been used to examine the role of heat shock protein (HSP)72 in experimental heatstroke. Transgenic mice that were heterozygous for a porcine HSP70β gene ([+] HSP72) and transgene-negative littermate controls ([-] HSP72), under pentobarbital sodium anesthesia, were subjected to heat stress to induce heatstroke. It was found that the overexpression of HSP72 in multiple organs improved survival during heatstroke by reducing hypotension and cerebral ischemia and damage in mice. Herein we attempted to further assess the effect of heat exposure on thermoregulatory function, hypothalamic integration, and survival in unrestrained, unanesthetized [+]HSP72 and compare with those of [-]HSP72. In this research with the transgenic mice, we first conducted several biochemical, physiologic and histological determinations and then investigated the beneficial effects of HSP72 overexpression on the identified hypothalamic deficits, thermoregulatory dysfunction, and mortality during heatstroke.     

Cryopreservation of chayote (Sechium edule JACQ. SW.) zygotic embryos and shoot-tips from in vitro plantlets

This paper presents the development of cryopreservation protocols for zygotic embryos and apices of chayote (Sechium edule Jacq. Sw.), a tropical plant species with recalcitrant seeds. Zygotic embryos of two cultivars, Ccocro negro (CN) and Claudio (Cl) could withstand cryopreservation, with survival percentages of 10 and 30 %, after desiccation to 23 and 19 % moisture content (fresh weight basis), respectively. Apices sampled on in vitro plantlets of cultivars Cl, 13 and JM were successfully cryopreserved using a vitrification technique. Optimal conditions included the culture of mother-plants for 22 days on medium containing 0.3 M sucrose, culture of excised apices on the same medium for 1 day, loading of apices for 20 min with 2M glycerol + 0.4M glycerol, treatment with a series of diluted PVS2 solution (60 % PVS2 followed by 80 % PVS2 solution for 15 min (cultivar Cocoro Blanco [CB]) or 30 min (cultivars CN and Cl) at each concentration), rapid freezing and thawing, washing of shoot-tips with a 1.2 M sucrose solution, followed by recovery on media with progressively decreasing sucrose concentrations until the standard concentration of 0.1 M was reached. The highest survival percentages achieved ranged between 17 and 38 %, depending on the cultivar.     

Cryopreservation, encapsulation and promotion of shoot production of embryonic axes of a recalcitrant species Ekebergia capensis, Sparrm

A study on zygotic axes of the recalcitrant seeds of Ekebergia capensis compared two cryopreservation methods, partial desiccation, and encapsulation-dehydration, and also investigated a method to promote shoot production. High (80 percent) survival (assessed as root production) was obtained after direct immersion into liquid nitrogen of axes rapidly dehydrated by flash drying for 20 min to a water content about 0.4 g water per g dry mass. In contrast, no survival at all was obtained of axes that were first encapsulated, then desiccated for three hours to the same water concentration as those fast-dried, and then placed in a cryovial and immersed in liquid nitrogen. Axes encapsulated after cryopreservation germinated both in vitro and in soil, and could be stored at room temperatures for several weeks while maintaining germinability, thus producing synseeds capable of distribution. However, shoot production after cryopreservation was seldom observed. The inclusion of the plant growth regulator, N6-benzyl adenine (BA) in the MS-based recovery medium promoted vigorous multiple shoot formation. Microscopical examination of embryos of E. capensis revealed that the cotyledonary insertions were contiguous with the shoot apex, leading to the conclusion that injury to, and ultimate necrosis of, the apical meristem following severing of these connections was a primary cause of the observed lack of, or poor, shoot development in excised axes (whether cryopreserved or not). The study demonstrated that it may be possible to resolve two of the problems facing attempts at cryopreservation of axes of recalcitrant seeds; lack of shoot production and difficulty of distribution of cryopreserved material for re-introduction.     

Studies on cryopreservation of luc gene transfected bluegill sunfish fibroblast cell line

The effect of cryopreservation on the survival of luc gene transfected bluegill sunfish fibroblast (BF-2) cells was investigated. Propane-1,2-diol was found to be the least toxic cryoprotectant when compared with DMSO and methanol. Both propane-1,2-diol and DMSO are effective in protecting cells from freezing damage. Whilst there were no significant differences in cell survival between cryoprotectant concentration (10 or 15%) and culture age used in this study, 7-day old culture appeared to be more resistant to freezing without cryoprotectant when compared with 3- and 14-day old culture. The highest cell survival values obtained with propane-1,2-diol (10%) and DMSO (10%) protection were 96.2 1.2% and 94.0 3.1% respectively. Initial subsequent cell growth after cryopreservation was slower than their non-frozen controls. The survival of transfected BF-2 cells (BF-2/luc1) after cryopreservation were very similar to those obtained with wild type cells being: 94.0 3.1% and 95.2 1.5% respectively with 10% DMSO protection. These results suggested that genetically modified fish cell lines may be equally amenable to cryopreservation as the wild type.     

Cryopreservation of coconut (Cocos nucifera L.) zygotic embryos by vitrification

The present study investigates the effect of preculture conditions, vitrification and unloading solutions on survival and regeneration of coconut zygotic embryos after cryopreservation. Among the seven plant vitrification solutions tested, PVS3 was found to be the most effective for regeneration of cryopreserved embryos. The optimal protocol involved preculture of embryos for 3 days on medium with 0.6 M sucrose, PVS3 treatment for 16 h, rapid cooling and rewarming and unloading in 1.2 M sucrose liquid medium for 1.5 h. Under these conditions, 70-80 survival (corresponding to size enlargement and weight gain) was observed with cryopreserved embryos and 20-25 percent of the plants regenerated (showing normal shoot and root growth) from cryopreserved embryos were established in pots.     

Cryopreservation of Arabidopsis thaliana shoot tips

Development of a successful shoot tip cryopreservation method for Arabidopsis thaliana L. will enable researchers to use molecular tools to study processes important for successful cryopreservation in this model organism. We demonstrate that Arabidopsis can be successfully cryopreserved using either plant vitrification solution 2 (PVS2) or plant vitrification solution 3 (PVS3) as cryoprotectants prior to rapidly cooling shoot tips in liquid nitrogen (LN). Shoot tip regrowth after PVS2 cryoprotectant treatment was improved after cold acclimation treatments of 8 or 18 days. All of the shoots tips regrew after LN exposure when cryoprotected with PVS3 for 60 min at 22 degree C. In addition, shoot tips could be cryopreserved using a two-step cooling procedure with PGD (polyethylene glycol-glucose-dimethyl sulfoxide) as a cryoprotectant. The high levels of shoot formation after LN exposure of Arabidopsis shoot tips makes this a desirable system in which molecular tools can be used to examine how alterations in biochemical, metabolic and developmental processes affect regrowth after cryoprotective treatments.     

Cryopreservation by encapsulation of Gentiana spp cell suspensions maintains regrowth, embryogenic competence and DNA content

A reliable technique for cryopreservation by encapsulation was developed for two suspension cultures of gentian species (Gentiana tibetica and G. cruciata) of different ages and embryogenic potential. The effect of water content, aggregate size and the subculture time on viability was determined by the 2,3,5-triphenyltetrazolium chloride (TTC) test. Regrowth of a proembryogenic mass (PEM) on agar, liquid or agar/liquid media was assayed by measuring the increase in biomass. A water content of 24-30% (fresh weight basis) after 5-6 h dehydration of encapsulated cells of gentians yielded the highest survival (68% for G. tibetica and 83% for G. cruciata) after cryopreservation. Regardless of species, aggregate size and subculture time, the lowest PEM survival was 44%. These parameters did not influence the survival of G. tibetica PEM, but the survival of G. cruciata was higher when the smaller aggregates were cryopreserved on the 5th day of culture. Agar/liquid culture caused the greatest biomass increase. Cryopreservation did not affect the characteristics of suspension cultures and their regrowth after thawing, nor the number and dynamics of somatic embryos formed. Flow cytometry showed that cryopreservation did not change the genome size of the PEMs or regenerants.     

Ultra rapid freezing and vitrification of human embryos derived from abnormally fertilised zygotes

The present study was undertaken to compare the developmental capacity of human embryos derived from abnormally fertilised zygotes (1 PN, > 3 PN; 16-18 hours after ICSI) cryopreserved using two techniques: ultra rapid freezing and vitrification. At 2-4 cell stage, (48 hours after ICSI), these abnormally fertilised embryos were then distributed in three groups: a) embryos that were cryopreserved by ultra rapid freezing (URF Group), b) embryos cryopreserved by vitrification (V Group) and c) embryos that were not cryopreserved (Control group). Survival rates and embryo development after 24 hours of in vitro culture (72 hours after ICSI) were compared. 42 embryos were cryopreserved by ultra rapid freezing in 0.5 mL straws, using a mixture of dimethyl sulphoxide (3M) and sucrose (0.25M) in a base solution consisting of IVF medium plus 20 percent (v/v) of Human Serum Albumin (HSA), and 24 embryos were vitrified in 0.25 ml straws, using a two step protocol with an equilibration solution consisting of 10 percent ethylene glycol (1.79 M) and 10 percent dimethyl sulphoxide (1.41 M) in a base solution of modified phosphate buffered saline (PBS) with 20 percent of HSA and a vitrification solution consisting of 20 percent ethylene glycol (3.58 M), 20 percent dimethyl sulphoxide (2.82 M) and 0.5 M sucrose in base solution. The recovery rate after thawing/warming was lower for the vitrification group (75 percent V; 83 percent URF). The number of embryos with less than 50 percent of intact blastomeres after cryopreservation was significantly higher for the URF group (0 percent V; 34 percent URF). After in vitro culture, the rate of embryos not cryopreserved (Control group) that developed in vitro (72 hours after ICSI) was the highest (86 percent), followed by group V (50 percent), while group URF was the lowest (13 percent). These differences were statistically significant. This straw method of vitrification is successful and safe.     

Cryopreservation of 'Nabali' olive (Olea europea l.) somatic embryos by encapsulation-dehydration and encapsulation-vitrification

Olive (Olea europea L.) somatic embryos were successfully cryopreserved using encapsulation-dehydration and encapsulation-vitrification. In the encapsulation-dehydration procedure, a maximum of 48% embryo survival was obtained when bead moisture content was decreased to 21.1% after 4 h dehydration. Preculture of embryos for 4 d in medium containing 0.75 to 1.25 M sucrose produced higher (40 to 34 %, respectively) regrowth after cryopreservation using encapsulation-dehydration procedure. Dehydration of beads for 3 h in PVS2 ensured higher survival (64%) of encapsulated-vitrified and cryopreserved (EVN) somatic embryos. Thermal treatment of embryogenic callus for 1 d at 30 degree C was very effective to increase survival of encapsulated-dehydrated and cryopreserved (EDN) (58%) and EVN (68%) embryos. Plantlets produced from control and cryopreserved embryos were phenotypically similar.     

Cold storage and cryopreservation of hops (Humulus l.) shoot cultures through application of standard protocols

The USDA-ARS National Clonal Germplasm Repository (NCGR) stores the global diversity of Humulus for the US Plant Germplasm System as trellised plants in a field genebank. In vitro storage and cryopreservation are now considered excellent ways to provide medium and long-term storage for plant collections. Developing a new cryopreservation or cold storage protocol for every accession or genus of large multi-crop collections can be a very time consuming and long-term activity. We propose that standard cold storage and cryopreservation techniques used for other temperate crop genera would be successful for additional crops with few modifications. This study was initiated to determine if a large collection of hops germplasm could be successfully stored with techniques developed for unrelated genera. In this study we characterized the response of diverse Humulus genotypes to in vitro storage under low light at 4 degree C following techniques used for strawberry and mint plants, and cryopreservation in liquid nitrogen by slow cooling with a pear protocol. The average storage time without transfer for the 70 genotypes evaluated was 14 +/- 3.5 months with a range of 6 to 26 months. Mean recovery of cryopreserved shoot tips of accessions with 1-wk cold acclimation was 41 +/- 18 percent and increased to 54 +/- 13 percent with 2-wk cold acclimation. This demonstrates that application of a well-tested standard technique can provide a quick start for storing additional germplasm collections.