Intracellular trehalose via transporter TRET1 as a method to cryoprotect CHO-K1 cells

Trehalose is a promising natural cryoprotectant, but its cryoprotective effect is limited due to difficulties in transmembrane transport. Thus, expressing the trehalose transporter TRET1 on various mammalian cells may yield more trehalose applications. In this study, we ran comparative cryopreservation experiments between the TRET1-expressing CHO-K1 cells (CHO-TRET1) and the CHO-K1 cells transfected with an empty vector (CHO-vector). The experiments involve freezing under various trehalose concentrations in an extracellular medium. The freeze-thawing viabilities of CHO-TRET1 cells are higher than those of CHO-vector cells for most freezing conditions. This result differs from control experiments with a transmembrane type cryoprotectant, dimethyl sulfoxide (Me₂SO), which had similar viabilities in each condition for both cell types. We conclude that the trehalose loaded into the cells with TRET1 significantly improves the cryoprotective effect. The higher viabilities occurred when the extracellular trehalose concentration exceeded 200 mM, with 250–500 mM being optimal, and a cooling rate below 30 K/min, with 5–20 K/min being optimal.     

Freeze-drying of Lactobacillus coryniformis Si3--effects of sucrose concentration, cell density, and freezing rate on cell survival and thermophysical properties

Freeze-drying is commonly used to stabilize lactic acid bacteria. Many factors have been reported to influence freeze-drying survival, including bacterial species, cell density, lyoprotectant, freezing rate, and other process parameters. Lactobacillus coryniformis Si3 has broad antifungal activity and a potential use as a food and feed biopreservative. This strain is considered more stress sensitive, with a low freeze-drying survival, compared to other commercialized antifungal lactic acid bacterial strains. We used a response surface methodology to evaluate the effects of varying sucrose concentration, cell density and freezing rate on Lb. coryniformis Si3 freeze-drying survival. The water activity of the dry product, as well as selected thermophysical properties of importance for freeze-drying; degree of water crystallization and the glass transition temperature of the maximally freeze concentrated amorphous phase (Tg') were determined. The survival of Lb. coryniformis Si3 varied from less than 6% to over 70% between the different conditions. All the factors studied influenced freeze-drying survival and the most important factor for survival is the freezing rate, with an optimum at 2.8 degrees C/min. We found a co-dependency between freezing rate and formulation ingredients, indicating a complex system and the need to use statistical tools to detect important interactions. The degree of water crystallization decreased and the final water activity increased as a function of sucrose concentration. The degree of water crystallization and Tg' was not affected by the addition of 10(8)-10(10) CFU/ml. At 10(11) CFU/ml, these thermophysical values decreased possibly due to increased amounts of cell-associated unfrozen water.     

Effect of semen dilution to low-sperm number per dose on motility and functionality of cryopreserved bovine spermatozoa using low-density lipoproteins (LDL) extender: Comparison to Triladyl and Bioxcell

Artificial insemination with doses containing low-sperm numbers has been utilized to optimize the use of elite bulls. Hen egg yolk is widely used as a cryoprotective agent in semen freezing extender protecting the spermatozoa. Its action is due to the presence of low-density lipoproteins (LDL) in the hen egg yolk. The objectives of the present study were to evaluate the effects of the semen dilution to low-sperm number/dose on sperm motility and integrity of sperm plasma membrane in the cryopreservation process, using two commercial extenders (Triladyl^®, Bioxcell^®) and LDL extender prepared in our laboratory, 97% purity. Fifteen ejaculates were collected from five fertile crossbred bulls (Bos taurus × Bos indicus). After collection, sperm motility was examined by Computer-Assisted Semen Analysis (Hamilton Thorne), morphological sperm characteristics were evaluated by differential interference microscopy and the integrity of plasma membranes was determined using the hypo-osmotic swelling test. The semen was subsequently divided into three aliquots and diluted with the three extenders into 120 × 10⁶, 60 × 10⁶ and 20 × 10⁶ sperm/mL, corresponding to 30 × 10⁶, 15 × 10⁶ and 5 × 10⁶ sperm/dose, respectively. This study revealed that LDL extender was more effective in preservation of motility and integrity of the plasma membrane of spermatozoa than Bioxcell^® and Triladyl^® (p < 0.05), but no significant difference was observed between Triladyl^® and Bioxcell^®. Therefore we can conclude that LDL extender could be used instead of Triladyl^® or Bioxcell^® at low semen concentration per dose for elite bulls, it also could be envisaged for the industry of sex-stored semen.     

Cryopreservation of protozoan parasites

Conventional methods for the propagation and preservation of parasites in vivo or in vitro have some limitations, including the need for labor, initial isolation and loss of strains, bacterial, and fungal contamination, and changes in the original biological and metabolic characteristics. All these disadvantages are considerably reduced by cryopreservation. In this study, we examined the effects of various freezing conditions on the survival of several protozoan parasites after cryopreservation. The viability of Entamoeba histolytica was improved by seeding (p < 0.05, chi2 test), while this was not so effective for Trichomonas vaginalis. Of six cryoprotectants examined, dimethyl sulfoxide (Me(2)SO), and glycerol showed the strongest cryoprotective effects. The optimum conditions for using Me(2)SO were a concentration of 10% with no equilibration, and those for glycerol were a concentration of 15% with equilibration for 2h. The optimum cooling rate depended on the parasite species. Trypanosoma brucei gambiense and Leishmania amazonensis were successfully cryopreserved over a wide range of cooling rates, whereas the survival rates of E. histolytica, T. vaginalis, Pentatrichomonas hominis, and Blastocystis hominis were remarkably decreased when frozen at improper rates. Unlike the cooling rate, exposure of the protozoans to a rapid thawing method produced better motility for all parasites.     

The role of glycinebetaine in the protection of spinach thylakoids against freezing stress

The quaternary ammonium compound glycinebetaine has been tested for cryoprotective properties, using isolated spinach thylakoids as a model membrane system. The effect of a 3-h,-20°C freezing regime on different photosynthetic parameters was measured. These parameters were the light-stimulated pH formation and dark pH decay, light-stimulated proton uptake, electron flow through photosystem II, photosystem I and total linear electron flow, and pyocyanine-mediated cyclic photophosphorylation. It was shown that below 100 mM glycinebetaine was superior as a cryoprotectant to sucrose on a molar, a molal and an activity basis. At higher concentrations, glycinebetaine was less efficient in preventing inactivation of thylakoids during freezing than sucrose. These observations are discussed in relation to the permeability of biomembranes to glycinebetaine and the colligative theory of cryoprotection. It is concluded that colligative protection is modified by direct interaction between cryoprotectant and membranes.Abbreviations Asc ascorbate - cyt f cytochrome f - DAD 2,3,5,6-tetramethyl--phenylenediamine - DCMU 3-(3,4-dichlorophenyl)-1, 1-dimethylurea - DCPIP 2,6-dichlorophenolidophenol - DBMIB 2,5-dibromo-3-methyl-6-isopropyl--benzoquinone - DNP-INT 1,3-dinitrophenylether of iodonitrothymol - FeCy ferricyanide - MV methylviologen (1,1-dimethyl-4-4-bipyridinium-dichloride) - PQ plastoquinone - PS I photosystem I - PS II photosystem II     

Freezing behavior of xylem ray parenchyma cells in softwood species with differences in the organization of cell walls

Summary By cryo-scanning electron microscopy we examined the effects of the organization of the cell walls of xylem ray parenchyma cells on freezing behavior, namely, the capacity for supercooling and extracellular freezing, in various softwood species. Distinct differences in organization of the cell wall were associated with differences in freezing behavior. Xylem ray parenchyma cells with thin, unlignified primary walls in the entire region (all cells inSciadopitys verticillata and immature cells inPinus densiflora) or in most of the region (mature cells inP. densiflora and all cells inP. pariflora var.pentaphylla) responded to freezing conditions by extracellular freezing, whereas xylem ray parenchyma cells with thick, lignified primary walls (all cells inCrytomeria japonica) or secondary walls (all cells inLarix leptolepis) in most regions responded to freezing by supercooling. The freezing behavior of xylem ray parenchyma cells inL. leptolepis changed seasonally from supercooling in summer to extracellular freezing in winter, even though no detectable changes in the organization of cell walls were apparent. These results in the examined softwood species indicate that freezing behavior of xylem ray parenchyma cells changes in parallel not only with clear differences in the organization of cell walls but also with subtle sub-electron-microscopic differences, probably, in the structure of the cell wall.     

植物组织培养物的超低温保存

引言十九世纪末,诞生了一门新的科学——低温生物学(Cryobiology)。气体液化技术使人类可以获得近乎生命的凝固状态。1949年发现了甘油可以防止冰冻对活细胞的伤害,对低温生物学有重要贡献。从而导致了在许多不同领域内广泛应用低温保护技术。超低温通常指低于-80℃的低温,常用的有干冰(-79℃)、深冷冰箱、液氮(-196℃)及液氮蒸汽相(-140℃)。这样低的温度下保存生物材料,可以大大减慢、甚至终止代谢和衰老过程,因而能     

Acclimation to freezing temperatures in perennial ryegrass (Lolium perenne)

The increasing demands being placed on natural grasslands in the era following the appearance of Bovine Spongiform Encephalitis require that forage crops provide a reliable extended season of growth, combined with good winter survival to ensure sward longevity. The ability to tolerate sub-zero temperatures is integral to the survival of perennial forages. Since the development of freezing tolerance is crucial to the survival and productivity of over-wintering crops, forage breeding programmes require an improved understanding of the individual characteristics that contribute to tolerance to sub-zero temperatures. Photosynthesis, carbohydrate content and changes in protein composition were investigated in two varieties of Lolium perenne which differ in their response to growth at low temperature.     

Akinete Formation in Tribonema bombycinum Derbes et Solier (Xanthophyceae) in Relation to Freezing Tolerance

Tribonema bombycinum (Xanthophyceae), was examined. T. bombycinum shifted from vegetative cells to akinetes with starving by a prolonged batch culture, by culture with a diluted medium, or by culture with a single nutrient-deficient medium. In addition, akinetes developed by desiccation, but cold treatment at 4 C did not facilitate akinete formation. During starving, the vegetative cells, which had a large central vacuole in the protoplasm and thin cell walls, finally changed to akinetes, which had many small vacuoles and oil droplets in the protoplasm and thick cell walls. During akinete formation by starving, the freezing tolerance (LT₅₀) increased gradually from −3 C in vegetative cells to far below −30 C in akinetes. When vegetative cells were subjected to equilibrium freezing, their size shrank greatly and aparticulate domains accompanied by fracture-jump lesions developed in the plasma membranes. Akinetes subjected to equilibrium freezing showed little shrinkage, and freezing-induced ultrastructural changes did not occur in the plasma membranes. The morphological changes in the process of akinete formation and the responses to equilibrium freezing resembled those of cold-acclimated terrestrial plants. Received 24 November 1998/ Accepted in revised form 1 February 1999