Cryopreservation of gametophytes of Laminaria japonica (phaeophyta) with two-step cooling: interactions between variables related to post-thaw survival

Little attention has been given to the effect of interactions between different cryogenic parameters on the viability of cryopreserved algae. Gametophytes of Laminaria japonica were cryopreserved in liquid nitrogen by two-step cooling, and interactions were tested for optimizing the cooling protocol and improving freeze-tolerance. UNOVA of a general linear model suggested that interactions between both cooling rate and holding time and between holding temperature and holding time significantly affected the survival of thawed gametophytes. Based on the magnitude of effect, the importance order of factors was found to be: holding temperature, holding time, cooling rate, cooling rate x holding temperature, holding temperature x holding time. UNOVA also suggested significant main effects of pre-culture conditions and sex on survival of thawed gametophytes. Under the optimal procedure, post-thaw survivals obtained were 84 percent for male and 69 percent for female gametophytes. Male gametophytes were observed to be more tolerant to the whole procedure of cryopreservation than females. Following thawing viable gametophytes could grow asexually or give rise to morphologically normal sporophytes.     

Investigation of the influence of cell density of human fibroblasts cryopreserved inside collagen sponges at various cooling rates

The influence of cell density of cells cryopreserved inside a collagen matrix at various cooling rates was investigated. Human fibroblasts were three-dimensionally cultured for 2 days in a collagen sponge (20 mm in diameter and 1 mm in thickness) as an extracellular matrix to imitate biological tissue (artificial tissue). Different cell densities for the artificial tissue were used, from 10(5) to 10(7) cells/cm(3). Four artificial tissues were first stacked in a test chamber, frozen at a cooling rate of 0.3 to 50 degrees C/min in a solution of Dulbecco's Modified Eagle Medium, 20% fetal bovine serum and 10% dimethylsulfoxide, kept frozen below -185 degrees C for 2 hours, and then finally thawed. Membrane integrity of fibroblasts using a trypan blue exclusion assay was evaluated as an index for post-thaw cellular viability. Results show that with increasing cell density, the post-thaw membrane integrity decreased. Therefore, in the cryopreservation of biological tissue, it seems high cell density is one factor which causes a decline in viability.     

Cryopreservation of peach palm zygotic embryos

Cryopreservation is a safe and cost-effective option for long-term germplasm conservation of non-orthodox seed species, such as peach palm (Bactris gasipaes). The objective of the present study was to establish a cryopreservation protocol for peach palm zygotic embryos based on the encapsulation-dehydration technique. After excision, zygotic embryos were encapsulated with 3 percent sodium alginate plus 2 M glycerol and 0.4 M sucrose, and pre-treated or not with 1 M sucrose during 24 h, followed by air-drying. Fresh weight water contents of beads decreased from 83 percent and 87 percent to 18 percent and 20 percent for pre-treated or non-pretreated beads, respectively, after 4 h of dehydration. Sucrose pre-treatment at 1 M caused lower zygotic embryo germination and plantlet height in contrast to non-treated beads. All the variables were statistically influenced by dehydration time. Optimal conditions for recovery of cryopreserved zygotic embryos include encapsulation and dehydration for 4 h in a forced air cabinet to 20 percent water content, followed by rapid freezing in liquid nitrogen (-196 degree C) and rapid thawing at 45 degree C. In these conditions 29 percent of the zygotic embryos germinated in vitro. However, plantlets obtained from dehydrated zygotic embryos had stunted haustoria and lower heights. Histological analysis showed that haustorium cells were large, vacuolated, with few protein bodies. In contrast, small cells with high nucleus:cytoplasm ratio formed the shoot apical meristem of the embryos, which were the cell types with favorable characteristics for survival after exposure to liquid nitrogen. Plantlets were successfully acclimatized and showed 41+/-9 percent and 88+/-4 percent survival levels after 12 weeks of acclimatization from cryopreserved and non-cryopreserved treatments, respectively.     

Integrity of endothelium in cryopreserved human cornea

The aim of the present study was to elaborate an optimal method for cryopreservation of human donor cornea for transplantation and to follow the morphological changes in the structure of the endothelial cell layer using scanning electron microscopy (SEM). Sixteen groups, with four donor cornea each, were cryopreserved at cooling rates of 1 degree C per min and 5 degree C per min. Four cryoprotectants (glycerol, dimethyl sulfoxide, 1,2-propanediol, polyethylene glycol-400) in two concentrations (5% and 10% v/v) were prepared on the bases of medium Optisol GS supplied with 20% v/v human serum albumin. Four additional human cornea were used as controls. Endothelial cell recovery of the cornea after thawing and 24 hours culture, was calculated as a percent of the preserved recovered cells. Sufficient recovery of the endothelial cell layer, making the cornea suitable for transplantation was obtained using the cryoprotectants dimethyl sulfoxide and especially polyethylene glycol-400.     

Effect of various freezing solutions on cryopreservation of mesenchymal stem cells from different animal species

The objective of this study is to compare the effects of different well defined freezing solutions with a reduced concentration of dimethylsulfoxide (DMSO) combined with polyethylene glycol (PEG) and/or trehalose on cryopreservation of mesenchymal stem cells (MSCs) from mice, rats and calves. Post-thaw cell viability, proliferation capacity and differentiation potential of MSCs from different species were assessed after cryopreservation with the conventional slow freezing method. Although the post-thaw viabilities and metabolic activities varied among the different species, satisfactory results were obtained with 5 percent (v/v) DMSO, 2 percent (w/v) PEG, 3 percent (w/v) trehalose and 2 percent (w/v) bovine serum albumin (BSA) as the freezing solution. Our results showed that mouse MSCs were more robust to cryopreservation compared with rat and bovine MSCs.     

A parametric study of freezing injury in BPH1CAFTD-2 human prostate tumor cells

Freeze injury in BPH1(CAFTD)-2 cells frozen/thawed in suspension was studied through a two-level four-parameter (2(4)) experimental design and analysis. The four parameters considered were end temperature, hold time, TNFalpha concentration, and thawing rate. Thermal parameter values chosen were based on the approximate thermal history cells would experience in the peripheral region of a cryosurgical iceball. Cell suspensions were frozen at a constant 10 degree C/min on a directional solidification stage and viability was assessed within 1 hr post-thaw using a dye exclusion assay. The parameters affecting cell survival were determined through calculation of the individual parameter effects (E) and interactions (I) according to factorial design guidelines; data set curvature (C) was also determined. Cell viability ranged from a maximum of 87.6 percent to a minimum of 17.6 percent indicating trends in cell survival were sensitive to the parameters chosen. Survival was affected by the following parameters in order: lowering the end temperature, increasing the hold time, adding TNFalpha, and reducing the thawing rate. In addition, all 2-way parameter interactions except TNFalpha hold time were statistically significant. Curvature analysis showed that cell viability at the midpoint of the data was nearly 20 percent lower than predicted based on linear interpolation. These results were verified and extended using analysis of variance (ANOVA). We conclude that cryoinjury in this tumor line can be influenced by multiple interacting thermal parameters, most importantly end-temperature and hold time, as well as the presence of the cytokine TNFalpha. Finally, although the cell type is tumorigenic results suggest the possibility of using freezing to control benign prostatic hyperplasia (BPH) in addition to cancer within the prostate.     

Cryopreservation and metabolic profiling analysis of Arabidopsis T87 suspension-cultured cells

We established a simple cryopreservation protocol for Arabidopsis T87 cells using an encapsulation-dehydration method. T87 cells were encapsulated into alginate beads containing 2 M glycerol and 0.4 M sucrose. Alginate beads containing T87 cells were dehydrated with silica gel for 2 h (to c. 0.7 g water per g dry weight followed by immersed in LN. After rewarming at 35 degree C for 3 min and 1-d incubation under continuous illumination at 22 degree C, cryopreserved T87 cells exhibited considerable regrowth. Exponentially-grown 7-d-old T87 cells regrew more vigorously (86% of control) than 14-d-old cells after cryopreservation without preculture in medium containing 0.3 M sucrose. Genetic stability of cryopreserved T87 cells was demonstrated by gas chromatography time-of-flight mass spectrometry (GC-TOF-MS) and principal component analysis (PCA). Transformed T87 cells were cryopreserved using established protocols, and GUS expression was maintained within a 2-fold variance. These results indicate that cryopreservation of T87 cells is useful for comprehensive metabolomics research and for the large scale collection of transformed cultured cell lines for functional genomics research.     

Cryopreservation of embryonic axes of selected amaryllid species

A study on cryopreservation of excised embryonic axes of fifteen species of the amaryllidaceae is reported. Embryonic axes that after flash-drying had a water content in the range 0.4 to 0.1 g/g and survival greater than 60% were selected for cryopreservation procedures. The highest post-thaw viabilities (roots and shoots produced) across all species were recorded for embryonic axes subjected to rapid rather than slow cooling. With rapid cooling and no cryoprotection, the highest post-thaw viabilities for the fifteen species investigated was 0% in one species; ranged between 10 and 35% for nine species; and between 45 and 55% for five species. With cryoprotection and rapid cooling the highest post-thaw viabilities for these fifteen species was 0% for one species; ranged between 15 and 35% for six species; and between 40 and 75% for eight species. The highest post-thaw survival in ten out of fifteen species was obtained for axes dried to between 0.24 +/- 0.06 and 0.14 +/- 0.08 g/g(-1) (and rapidly cooled). With only one exception (Strumaria discifera; 45%), post-thaw survival after slow cooling ranged between 10 and 30%. Survival after vitrification plus slow cooling was achieved for seven species but was never higher than post-thaw survival in non-cryoprotected, rapidly cooled axes. The results suggest that species within the same family can exhibit commonalities in terms of amenability to cryopreservation techniques but for maximum success, axis water content and cooling rate particularly, must be optimised for each species in the family independently.     

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.     

Design and evaluation of dual CD44 receptor and folate receptor-targeting double-smart pH-response multifunctional nanocarrier

In this article, in order to enhance the bioavailiability and tumor targeting of curcumin (Cur), the oligosaccharides of hyaluronan conjugates, folic acid-oligosaccharides of hyaluronan-acetal-menthone 1,2-glycerol ketal (FA-oHA-Ace-MGK) carried oHA as a ligand to CD44 receptor, double-pH-sensitive Ace-MGK as hydrophobic moieties, and FA as the target of folate receptor. The structure characteristics of this smart response multifunctional dual-targeting nano-sized carrier was measured by fourier-transform infrared (FT-IR) and nuclear magnetic resonance (¹H–NMR). Cur, an anticancer drug, was successfully loaded in FA-oHA-Ace-MGK micelles by self-assembly. The measurement results of transmission electron microscopy (TEM) presented that the Cur-loaded micelles were spherical in shape with the average size of 166.3?±?2.12 nm and zeta potential ??30.07 mV. Much more encapsulated Cur could be released at mildly acidic environments than at pH 7.4, from the Cur-FA-oHA-Ace-MGK micelles. Cytotoxicity assay indicated that non-Cur loaded micelles mostly had no cytotoxicity to MCF-7 cells and A549 cells, and Cur-loaded micelles had significantly lower survival rate than Cur suspension in the same concentration, which proved that the drug-loaded micelles can effectively inhibit tumor cell growth. The targeting of CD44 receptors and folate receptors was proved in vitro cellular uptake assay. These results showed the promising potential of FA-oHA-Ace-MGK as an effective nano-sized carrier for anti-tumor drug delivery.     

Vitrification, encapsulation-vitrification and droplet-vitrification: a review

This paper discusses the importance of the successive steps of the vitrification technique and reviews the current development and use of vitrification and of the two derived protocols, encapsulation-vitrification and droplet-vitrification. Vitrification refers to the physical process by which a highly concentrated cryoprotective solution supercools to very low temperatures and finally solidifies into a metastable glass, without undergoing crystallization at a practical cooling rate. Samples are thus cryopreserved without detrimental intracellular ice formation. In a standard vitrification protocol, excised explants are precultured on medium enriched with sucrose, treated (loaded) with a loading solution composed of 2 M glycerol + 0.4 M sucrose, dehydrated with a highly concentrated vitrification solution [e.g. the PVS2 vitrification solution, which contains 30 percent (w/v) glycerol, 15 percent (w/v) ethylene glycol and 15 percent (w/v) DMSO and 0.4 M sucrose], frozen and rewarmed rapidly, unloaded with basal culture medium supplemented with 1.2 M sucrose, and then transferred to standard culture conditions. In the encapsulation-vitrification technique, the explants are encapsulated in alginate beads, loaded and dehydrated with a vitrification solution before rapid immersion in liquid nitrogen. In the droplet-freezing technique, excised explants are loaded, treated with the vitrification solution and frozen in individual microdroplets of vitrification solution placed on aluminium foils, which are immersed rapidly in liquid nitrogen. These three techniques have been applied to different tissues of over 100 plant species from temperate and tropical origins and the number of cases where they are being tested on a large scale or applied routinely is increasing.     

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.     

Recovery of cryopreserved embryogenic cultures of maritime pine--effect of cryoprotectant and suspension density

Embryogenic cultures were obtained from seeds of open-pollinated maritime pine trees representing part of a breeding population. The aim of the present study was to develop and optimize a protocol for cryopreservation of Pinus pinaster somatic embryogenic tissue. The density of the embryogenic suspension and the type of pre-treatment significantly affected the recovery of cryopreserved embryogenic cultures, as evaluated by their survival and regrowth rate. An initial density of the suspension culture of 250 mg/ml improved the regrowth rate of the embryogenic lines. Pre-treatment with maltose 0.4 M significantly increased the regrowth rate when compared to the other tested carbohydrates. Also, the addition of DMSO in a mixture of PEG 4000 and sucrose (PSD solution), instead of DMSO alone, at the same final concentration, was clearly beneficial for recovery of cryopreserved tissues. This improved method for the cryopreservation of P pinaster embryogenic of cultures allowed the successful recovery of 97 percent of the lines stored in liquid of nitrogen.     

Sucrose preculture to simplify cryopreservation of banana meristem cultures

A simple cryopreservation method is described for proliferating meristem cultures of banana (Musa spp.). It relies on a 2-week preculture on media containing 0.4 M sucrose followed by rapid cooling in liquid nitrogen. Different preculture media were screened for efficient protection of banana meristems against cryopreservation. Sucrose can be replaced by both fructose and glucose without significantly affecting post-thaw survival rates. A high BA concentration (0.1 mM) in the preculture medium results in less material available for cryopreservation, but does not affect cryoprotection. Culture in liquid media significantly improved post-thaw regeneration. The optimized cryopreservation protocol was applied on 36 banana accessions belonging to 8 different genomic groups. It is shown that post-thaw regeneration frequencies (ranging between 0 and 66 percent) are highly dependent on the genomic constitution of the banana cultivar.     

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.     

Optimization of cryopreservation of stem cells cultured as neurospheres: comparison between vitrification, slow-cooling and rapid cooling freezing protocols

We compared cryopreservation of mammalian neural stem cells (NSCs) cultured as neurospheres by slow-cooling (1 C/min) in 10% (v/v) DMSO and cryopreservation by immersion into liquid nitrogen in ethylene glycol (EG)-sucrose solutions that support vitrification (40% (v/v) EG, 0.6 M sucrose) or that do not (37% v/v) EG, 0.6 M sucrose and 30% (v/v) EG, 0.6 M sucrose); the concentration of penetrating cryoprotectant in the last two solutions was lowered with the intention to reduce their toxicity towards NSCs. To protect against contamination a straw-in-straw technique was employed. Vitrification offered the best combination of preservation of structural integrity of neurospheres, cell viability (>96%), multipotency and karyotype. Rapid cooling in 37% (v/v) EG, 0.6 M sucrose afforded good viability but did not preserve structural integrity. Rapid cooling in 30% (v/v) EG, 0.6 M sucrose additionally reduced cell viability to 77%. Slow-cooling reduced cell viability to 65% and damaged the neurospheres. This study suggests that, in contrast to freezing, vitrification has immense potential for the cryopreservation of stem cells cultured as neurospheres or in other structured cultures.     

Cryopreservation of seeds and in vitro-cultured protocorms of Oncidium bifolium sims. (Orchidaceae) by encapsulation-dehydration

Encapsulation-dehydration was employed for cryopreserving seeds and in vitro-cultured protocorms of Oncidium bifolium. Freshly harvested seeds, 120 days after pollination, were encapsulated in beads containing 1/2 MS medium with 3% sucrose and 3% calcium alginate and subsequently pretreated in agitated (80 rpm) liquid medium supplemented with 0.15 M sucrose (24 h) followed by 0.25 M sucrose (48 h), 0.5 M sucrose (24 h) and 0.75 M sucrose (24 h). The beads with seeds were dehydrated with silica gel for 5 h to 19.2% moisture content and immersed in liquid nitrogen for 1 h, thawed at 30 degrees C for 2 min, post-treated using the same series of liquid media [0.5 M sucrose (24 h), 0.25 M sucrose (48 h), 0.15 M sucrose (24 h)], and recultured on 1/2 MS medium with 0.1M sucrose and 0.7% percent agar. As much as 4.8% of the cryopreserved seeds produced complete plants. In-vitro cultured protocorms were successfully cryopreserved following the same procedure, allowing 11.3% of them to produce plants.     

Cryopreservation of human embryonic stem cells: a protocol by programmed cooling

Human embryonic stem (ES) cells have far-reaching applications in the areas of tissue engineering, regenerative medicine, pharmacology and basic scientific research. Although the culture conditions can maintain the human ES cells in an undifferentiated state for a transient period, spontaneous differentiation has also been observed during the routine culturing of ES cells. However, the maintenance of ES cells in the undifferentiated, pluripotent state for extended periods of time will be required in many areas of scientific research. Cryopreservation is a technology with potentially far reaching implication for the development and widespread use of such cell lines. This study was undertaken to develop and optimize a protocol for cryopreservation of human ES cells through programmed cooling. The effects of the seeding temperature, the cooling rate and the sub-zero temperature to which the samples were cooled before plunging into liquid nitrogen(the terminal temperature), all significantly affected the recovery of cryopreserved ES cells. After studying these factors, an improved protocol was obtained: the sample was cooled from 0 degree C to -35 degree C at a cooling rate of 0.5 degree per min, with seeding was set at -10 degree C, before being plunged immediately into the liquid nitrogen. Using this protocol, 9 of 11 colony fragments survived freezing and thawing and could be cultured for prolonged periods. They retained the properties of pluripotent cells, had a normal karyotype and showed histochemical staining for alkaline phosphatase.     

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.     

Comparison of three techniques for cryopreservation and reestablishment of long-term Gentiana tibetica suspension culture

Cryogenic storage of cell suspensions allows long-term maintenance of cultures. The main purpose of the study was to develop a successful cryogenic protocol for 10-year-old embryogenic cell suspensions of G. tibetica. We examined three techniques of freezing: (I) controlled-rate cooling with various cryoprotectants (0.1-0.5 M DMSO, 0.5-1.0 M sucrose, 0.5-1.0 M glycerol, 0.25-1.0 M proline) or preculture with 0.4 M sorbitol and cryoprotectants (0.065-0.1 M DMSO, 0.2-0.8 M proline), (II) vitrification (PVS2) and (III) encapsulation. Cell viability was assessed by the TTC test and biomass increase. After controlled-rate cooling the majority of cells were lethally damaged, with only 3% viability observed. Vitrification and encapsulation approaches were more effective, assuring high levels of post-thaw viability ca. 85% and 7%, respectively. The encapsulation procedure gave faster recovery of the culture suspension than did vitrification, and ensured culture homogeneity and embryogenic competence.