Primary exploration of conditions for hypothermic preservation of rat hepatocyte spheroids

Q4 Biochemistry, Genetics and Molecular Biology

解放军医学杂志 Pub Date : 2014-01-01 DOI:10.11855/J.ISSN.0577-7402.2014.12.02

Hongling Liu, S. You, Chen Li, Wanshu Liu, Z. Wan, H. Zang, B. Zhu, Y. Rong, Fangfang Liu, S. Nyberg, S. Xin

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Abstract

Objective　To optimize conditions for hypothermic preservation of rat hepatocyte spheroids without freezing in order to facilitate the application of biological artificial liver. Methods　Rat hepatic cells were isolated by a two-step perfusion method, and hepatocyte spheroids formed after 48 hours of rocking culture in serum free medium (SFM). Spheroids were then maintained in rocking culture at 37℃ (control condition), or cold stored at 4℃ for 24 or 48 hours in four different cold storage solutions: SFM alone; SFM+1mmol/L deferoxamine (Def ); SFM+1μmol/L cyclosporin A (CsA); and SFM+1mmol/L Def+1μmol/L CsA. After culturing for another 4 or 5 days, survival rate, changes in ultrastructure, and the production of albumin and urea were observed. Results　Cold-induced injury could be reduced significantly by the addition of the iron chelators Def and CsA. The function and structure of hepatocyte spheroids stored in SFM+Def+CsA or SFM+Def for 24 hours were similar to those in control conditions. But the function was significantly reduced after hypothermic preservation in SFM alone. After cold storage for 48 hours, the ultrastructure of hepatocyte spheroids obviously changed and the number of dead cells increased. The survival rate of hepatocyte spheroids stored in SFM+Def+CsA or SFM+Def was significantly higher than that stored in SFM or SFM+CsA(P 0.05). Conclusions　Hepatocyte spheroids tolerate 24 hours of cold storage with stable viability and function. Hypothermic preservation increases the availability of cell-based therapy for liver diseases. DOI: 10.11855/j.issn.0577-7402.2014.12.02

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大鼠肝细胞球体低温保存条件的初步探讨

目的优化大鼠肝细胞球体的低温保存条件，促进生物人工肝的应用。方法采用两步灌注法分离大鼠肝细胞，在无血清培养基(SFM)中摇培养48 h后形成肝细胞球状体。然后将球体在37℃(对照条件)的摇摆培养中保存，或在4℃的四种不同的冷藏溶液中冷藏24或48小时:单独使用SFM;SFM+1mmol/L去铁胺(Def);SFM+1μmol/L环孢素A (CsA);SFM+1mmol/L Def+1μmol/L CsA。再培养4 ~ 5 d，观察细胞存活率、超微结构变化、白蛋白和尿素产量。结果铁螯合剂Def和CsA能明显减轻大鼠的冷致损伤。在SFM+Def+CsA或SFM+Def中保存24小时的肝细胞球体的功能和结构与对照组相似。但单纯SFM低温保存后，其功能明显降低。冷藏48h后，肝细胞球状体超微结构发生明显变化，死亡细胞增多。存储在SFM+Def+CsA或SFM+Def中的肝细胞球体存活率显著高于存储在SFM或SFM+CsA中的肝细胞球体存活率(P < 0.05)。结论肝球细胞可耐受24小时冷藏，具有稳定的活力和功能。低温保存增加了肝脏疾病细胞治疗的可用性。DOI: 10.11855 / j.issn.0577-7402.2014.12.02

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来源期刊

解放军医学杂志 Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

CiteScore

1.00

自引率

0.00%

发文量

14732

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