Daylan T Pritchard, Caio J Nicholson de Figueiroa, Niels C Bols, Lucy E J Lee
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引用次数: 0
摘要
虹鳟鱼鳃上皮细胞系(RTgill-W1)和肠上皮细胞系(RTgutGC)在 18-21 °C下暴露于含有胎牛血清的 L15(基础培养基)中的 NH4Cl,结果发现细胞质空泡化和细胞死亡取决于 NH4Cl 浓度和暴露时间。空泡化在培养物暴露于 10-100 mM NH4Cl 的 24 小时内出现,而在将暴露于 NH4Cl 的培养物恢复到 L15/FBS 后的 24 小时内空泡消失。RTgill-W1 似乎对空泡化更敏感,一个指标是培养物中空泡化细胞的最大比例,在 50 mM NH4Cl 中 72 小时接近 100%。在 7 天的暴露中,用 Alamar Blue 评估细胞活力损失 50%的抑制浓度(IC50s),RTgill-W1 为 30 mM NH4Cl,RTgutGC 为 80 mM。在伤口愈合试验中,与对照组一样,RTgutGC 细胞在 0.1 和 1 mM NH4Cl 中能在 5 d 内迁移并覆盖 500-μm 的间隙,但在 50 mM NH4Cl 中伤口愈合受阻。在 10 mM NH4Cl 中,修复速度减慢,但到 14 d 时,间隙已被细胞覆盖,其中许多细胞已空泡化。总之,这些结果为利用这两种细胞系研究鱼体内氨的生理学和毒理学奠定了基础。
Response of epithelial cell lines from the rainbow trout gut and gill to ammonia.
Rainbow trout epithelial cell lines from the gill, RTgill-W1, and gut, RTgutGC, were exposed to NH4Cl at 18-21 °C in L15 (basal medium) with fetal bovine serum and were found to undergo cytoplasmic vacuolization and cell death, depending on NH4Cl concentration and exposure time. Vacuolization arose within 24 h of cultures being exposed to 10-100 mM NH4Cl, and vacuoles disappeared over 24 h after NH4Cl-exposed cultures were returned to just L15/FBS. RTgill-W1 appeared more sensitive to vacuolization, with one indicator being the maximal proportion of vacuolated cells in a culture, which approached 100% in 50 mM NH4Cl for 72 h. RTgill-W1 also were more sensitive to NH4Cl-induced cell killing. For 7-d exposures, the inhibitory concentrations (IC50s) for the 50% loss of cell viability as evaluated with Alamar Blue were 30 mM NH4Cl for RTgill-W1 and 80 mM for RTgutGC. In a wound-healing assay, RTgutGC cells in 0.1 and 1 mM NH4Cl were able to migrate and cover a 500-μm gap in 5 d, like the control, but in 50 mM NH4Cl healing was blocked. In 10 mM NH4Cl, repair was slowed but by 14 d the gap was covered with cells and many of these were vacuolated. Overall, the results provide a foundation for using these two cell lines to study the physiology and toxicology of ammonia in fish.
期刊介绍:
In Vitro Cellular & Developmental Biology - Animal is a journal of the Society for In Vitro Biology (SIVB). Original manuscripts reporting results of research in cellular, molecular, and developmental biology that employ or are relevant to organs, tissue, tumors, and cells in vitro will be considered for publication. Topics covered include:
Biotechnology;
Cell and Tissue Models;
Cell Growth/Differentiation/Apoptosis;
Cellular Pathology/Virology;
Cytokines/Growth Factors/Adhesion Factors;
Establishment of Cell Lines;
Signal Transduction;
Stem Cells;
Toxicology/Chemical Carcinogenesis;
Product Applications.
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