不同降温速率对脐血干细胞冷冻复苏后生物学特性的影响

考察了不同降温速率对脐血造血干细胞各种生物学特性的影响。在4℃～-40℃的降温范围内,分别选择-0.5℃/min, -1℃/min, -5℃/min的降温速率进行降温,对复苏后的脐血单个核细胞的回收率、活性和CD34+含量的变化以及BFU-E、CFUGM和CFU-MK集落的回收率进行了考察,发现在-1℃/min的降温速率下,脐血MNC回收率可达93.3%±1.8%,活性可达95.0%±3.9%, CD34^＋细胞回收率达80.0%±17.9%,BFUE回收率为87.1%±5.5%,CFUGM回收率达88.5%±8.9%,CFUMK的回收率也达到86.2%±7.4%。并且对复苏后的细胞进一步进行体外培养,发现在-1℃/min的降温速率下复苏的细胞仍然具有与未经冷冻细胞相似的扩增能力,而-0.5℃/min和-5℃/min这两种降温速率条件下复苏的细胞与未经冷冻的细胞相比差距较大。因而-1℃/min的降温速率对冻存脐血干细胞比较合适。     

鮸鱼精子的生理特性及超低温冻存

通过测定精子的激活率、运动时间及寿命,研究了鮸鱼精子的生理特性,以0.5mL麦细管为冻存管、两步降温法超低温冻存鮸鱼精子。结果表明,鮸鱼精子激活与运动的适宜盐度为20~30、适宜pH值为5.5~9.0,适宜的KCl、NaCl、CaCl2溶液浓度分别为（500~600）mmol/L、（400~500）mmol/L、（300~400）mmol/L,适宜的葡萄糖溶液浓度为（800~900）mmol/L。无Ca2＋、Mg2＋及HCO3-的人工海水均能使鮸鱼精子激活,但运动时间及寿命有所下降。以Cortland溶液为稀释液,10%Gly、15%Gly、5%DMSO、10%DMSO、15%DMSO、10%EG、10%PG、15%PG及20%PG为抗冻剂,超低温冻存鮸鱼精子15d后,冻精的活力与鲜精相比无显著差异,其中,以10%Gly为抗冻剂冻存精子的效果最好,冻精的激活率、运动时间及寿命分别达（86.38±1.63）%、（8.24±1.37）min及（10.21±0.42）min。     

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.     

不同冷冻保藏条件对Glarea lozoyensis生长及产纽莫康定B_0能力的影响

棘白菌素类化合物纽莫康定B_0生产菌株Glarea lozoyensis,在其连续传代和发酵过程中都观察到菌株的变异,给科研、生产带来极大困扰。因此,采用低温冷冻保藏对G.lozoyensis Q1进行长期保存。采用单因素实验法研究了低温保护剂类型、保藏温度以及低温保护剂浓度对G.lozoyensis Q1菌体形态和发酵性能的影响。以作用于全细胞的80 g/L甘油和作用于细胞壁外的200 g/L PEG-6000作为低温保护剂,在-80℃保藏3个月后,纽莫康定B_0产量达到1.6 g/L,与保藏前基本一致。并且,当菌体保藏过后菌丝形态能维持一定褶皱的实验组产量均能保持在1 g/L以上,当表面趋于光滑时产量急剧下降,仅为初始的25%左右。结果表明,以甘油及PEG-6000作为冷冻保护剂,在-80℃条件下可实现G.lozoyensis Q1长期保藏。     

蚜科专化菌努利虫疠霉菌种超低温储存

虫霉目真菌的活力对超低温储存较为敏感。储存法在大范围应用前,需对储存效果进行详细评估。将蚜科专化菌努利虫疠霉以初级分生孢子形式（2－3′105个孢子/mL）在-80℃超低温存储12个月。结果显示日常用于培养该真菌的含0.1%乳化芝麻油的萨氏培养基作为超低温保护基质能有效地储存努利虫疠霉孢子,比常见的冷冻保护剂如二甲亚砜和甘油的效果好。孢子悬液经解冻和培养后可获得最多的生物量,而且菌种保持了较高的生长速率。更重要的是,萨氏培养基的主要成分4%葡萄糖、1%蛋白胨和1%酵母粉在低温存储过程中发挥了协同作用,能保     

人乳头瘤病毒特异性T细胞系细胞冻存后细胞的存活率及功能

研究人乳头瘤病毒特异性T细胞系细胞冻存后细胞的存活率及功能。应用包含10%二甲基亚砜、90%小牛血清的冻存液冻存6个T细胞系(5个CD4 T细胞系,1个CD8 T细胞系)细胞,液氮中冻存32~54个月后复苏,台盼蓝染色法检测复苏后T细胞系细胞的存活率,用酶联免疫斑点法(enzyme-linked immunospot assay,ELISPOT)检测复苏后T细胞系细胞的功能。结果显示,6个T细胞系细胞液氮冻存解冻后细胞的存活率为24.7%~93.5%,过夜培养后细胞的存活率为2.5%~72.2%。CD8 T细胞系细胞的存活率高于CD4 T细胞系细胞。6个复苏后的T细胞系细胞在PHA诱导后均能分泌IFN-γ。人乳头瘤病毒特异性T细胞系细胞冻存复苏后能够保持较好的存活率和功能。     

Development of a new bioprocess scheme using frozen seed train intermediates to initiate CHO cell culture manufacturing campaigns

Agility to schedule and execute cell culture manufacturing campaigns quickly in a multi‐product facility will play a key role in meeting the growing demand for therapeutic proteins. In an effort to shorten campaign timelines, maximize plant flexibility and resource utilization, we investigated the initiation of cell culture manufacturing campaigns using CHO cells cryopreserved in large volume bags in place of the seed train process flows that are conventionally used in cell culture manufacturing. This approach, termed FASTEC (Frozen Accelerated Seed Train for Execution of a Campaign), involves cultivating cells to high density in a perfusion bioreactor, and cryopreserving cells in multiple disposable bags. Each run for a manufacturing campaign would then come from a thaw of one or more of these cryopreserved bags. This article reviews the development and optimization of individual steps of the FASTEC bioprocess scheme: scaling up cells to greater than 70 × 10⁶ cells/mL and freezing in bags with an optimized controlled rate freezing protocol and using a customized rack configuration. Flow cytometry analysis was also employed to understand the recovery of CHO cells following cryopreservation. Extensive development data were gathered to ensure that the quantity and quality of the drug manufactured using the FASTEC bioprocess scheme was acceptable compared to the conventional seed train process flow. The result of offering comparable manufacturing options offers flexibility to the cell culture manufacturing network. Biotechnol. Bioeng. 2013; 110: 1376–1385. © 2012 Wiley Periodicals, Inc.     

Supplementation of sperm cryopreservation media with cell permeable superoxide dismutase mimetic agent (MnTE) improves goat blastocyst formation

The aim of this study was to assess whether a cell permeable superoxide dismutase agent such as MnTE, can further improve the quality of frozen/thawed semen sample using a commercially optimized sperm cryopreservation media (Bioxcell). Bioxcell was supplemented with different concentration of MnTE. Sperm membrane integrity, motility, viability and acrosomal status were assessed after freezing. Optimized concentration of MnTE was defined and used to assess fertilization and developmental potential. 0.1 μM MnTE significantly improved membrane integrity while 0.01 μM MnTE significantly improved acrosomal integrity post thawing. Addition of 0.01 μM MnTE also improved blastocyst formation rate. Supplementation of commercially optimized cryopreservation media with MnTE further improves the quality of goat frozen semen sample and may have important consequence of future embryo development. This effect may be attributed to cell permeable behavior of this antioxidant which may protect sperm genome from ROS-induced DNA damage.     

Primates: Models for red cell transfusion studies—Cryopreservation and survival of transfused red cells in primates

Primates are excellent models for study of blood transfusion in humans. Erythrocytes of chimpanzees, gibbons, baboons, and rhesus monkeys have a half life (T/2) of 14 to 16 days and a life span (T/10) of approximately 50 to 60 days, which is about half of that found in man. Red cells of primates were cryopreserved by freezing using either a droplet method or the low-glycerol rapid-freeze procedure. Thawed cells survive normally when transfused into the same species. Transfusion of incompatible isologous blood in alloimmunized baboons, in the presence of high titer antibodies, showed survival with small volumes to be virtually nil, but with large volumes, a short normal survival period was followed by a “collapse” phenomenon similar to that seen in humans.     

Effect of testicle postmortem storage on goat frozen-thawed epididymal sperm quality as a tool to improve genebanking in local breeds

The interest to develop assisted reproductive technologies and cryobanking for farm animal genetic resource conservation has recently increased. However, cryopreservation for ex-situ management of genetic diversity sometimes is not routinely feasible, owing to the lack of facilities (AI centres, laboratories) and expertise near the local breed farming area. In these cases, epididymal sperm obtained from slaughtered or castrated animals, associated with the possibility of managing rather long periods between animal death, sperm recovery and freezing, would increase the opportunities to create semen storages. This investigation addresses the pre-freeze/post-thaw quality of goat epididymal sperm as a function of testicle storage temperature (environment or +5°C) and time elapsed between animal’s death and sperm recovery (0, 24, 48, 72 h) to establish the optimal protocols for the recovery and cryopreservation of epididymal sperm in this species. Testicles of 50 mature bucks collected at the abattoir were divided in two groups: half of the testicles (n=50) were transported to the laboratory at environment temperature (E), whereas the remaining half (n=50) at a refrigeration temperature (R) of +5°C. In the two groups (E) and (R), one testicle from each pair was processed after slaughter forming the time 0 groups (0E and 0R). The contralateral testicle was processed after 24, 48 or 72 h of storage, at the corresponding temperature. Sperm motility and kinetic parameters, viability and morphology were assessed in pre-freeze and post-thaw samples. Until 48 h postmortem, both E and R temperatures are able to maintain good pre-freeze epididymal sperm quality. After 48 h postmortem, R temperature is fundamental to reduce epididymal sperm quality decay in pre-freeze samples. Moreover, testicle refrigeration also has a positive impact on post-thaw samples, allowing a lower decline through time considering total motility, kinetics parameters, sperm viability and sperm abnormalities. Therefore, when sperm cryopreservation is not immediately practicable, goat testicles should be transported and stored at 5°C up to a maximum of 48 h postmortem to ensure an acceptable sperm quality.