使用生物反应器重建肝脏类器官。
Reconstruction of liver organoid using a bioreactor.
作者信息
Saito Masaya, Matsuura Tomokazu, Masaki Takahiro, Maehashi Haruka, Shimizu Keiko, Hataba Yoshiaki, Iwahori Tohru, Suzuki Tetsuro, Braet Filip
机构信息
Department of Laboratory Medicine, The Jikei University School of Medicine, 3-25-8 Nishi-shinbashi, Minato-ku, Tokyo 105-8461, Japan.
出版信息
World J Gastroenterol. 2006 Mar 28;12(12):1881-8. doi: 10.3748/wjg.v12.i12.1881.
AIM
To develop the effective technology for reconstruction of a liver organ in vitro using a bio-artificial liver.
METHODS
We previously reported that a radial-flow bioreactor (RFB) could provide a three-dimensional high-density culture system. We presently reconstructed the liver organoid using a functional human hepatocellular carcinoma cell line (FLC-5) as hepatocytes together with mouse immortalized sinusoidal endothelial cell (SEC) line M1 and mouse immortalized hepatic stellate cell (HSC) line A7 as non parenchymal cells in the RFB. Two x 10(7) FLC-5 cells were incubated in the RFB. After 5 d, 2 x 10(7) A7 cells were added in a similar manner followed by another addition of 10(7) M1 cells 5 d later. After three days of perfusion, some cellulose beads with the adherent cells were harvested. The last incubation period included perfusion with 200 nmol/L swinholide A for 2 h and then the remaining cellulose beads along with adherent cells were harvested from the RFB. The cell morphology was observed by transmission electron microscopy (TEM) and scanning electron microscopy (SEM). To assess hepatocyte function, we compared mRNA expression for urea cycle enzymes as well as albumin synthesis by FLC-5 in monolayer cultures compared to those of single-type cultures and cocultures in the RFB.
RESULTS
By transmission electron microscopy, FLC-5, M1, and A7 were arranged in relation to the perfusion side in a liver-like organization. Structures resembling bile canaliculi were seen between FCL-5 cells. Scanning electron microscopy demonstrated fenestrae on SEC surfaces. The number of vesiculo-vacuolar organelles (VVO) and fenestrae increased when we introduced the actin-binding agent swinholide-A in the RFB for 2h. With respect to liver function, urea was found in the medium, and expression of mRNAs encoding arginosuccinate synthetase and arginase increased when the three cell types were cocultured in the RFB. However, albumin synthesis decreased.
CONCLUSION
Co-culture in the RFB system can dramatically change the structure and function of all cell types, including the functional characteristics of hepatocytes. Our system proves effective for reconstruction of a liver organoid using a bio-artificial liver.
目的
开发使用生物人工肝在体外重建肝脏器官的有效技术。
方法
我们之前报道过径向流生物反应器(RFB)可以提供三维高密度培养系统。我们目前在RFB中使用功能性人肝癌细胞系(FLC-5)作为肝细胞,与小鼠永生化窦状内皮细胞(SEC)系M1和小鼠永生化肝星状细胞(HSC)系A7作为非实质细胞来重建肝类器官。将2×10⁷个FLC-5细胞接种于RFB中。5天后,以类似方式加入2×10⁷个A7细胞,5天后再加入1×10⁷个M1细胞。灌注三天后,收获一些带有贴壁细胞的纤维素珠。最后一个培养阶段包括用200 nmol/L的斯氏藻素A灌注2小时,然后从RFB中收获剩余的纤维素珠及贴壁细胞。通过透射电子显微镜(TEM)和扫描电子显微镜(SEM)观察细胞形态。为评估肝细胞功能,我们比较了单层培养中FLC-5的尿素循环酶mRNA表达以及白蛋白合成,与RFB中单一类型培养和共培养的情况进行对比。
结果
通过透射电子显微镜观察,FLC-5、M1和A7相对于灌注侧呈类肝组织排列。在FCL-5细胞之间可见类似胆小管的结构。扫描电子显微镜显示SEC表面有窗孔。当我们在RFB中引入肌动蛋白结合剂斯氏藻素A 2小时后,泡状-空泡状细胞器(VVO)和窗孔数量增加。关于肝功能,培养基中发现了尿素,当三种细胞类型在RFB中共培养时,编码精氨琥珀酸合成酶和精氨酸酶的mRNA表达增加。然而,白蛋白合成减少。
结论
RFB系统中的共培养可显著改变所有细胞类型的结构和功能,包括肝细胞的功能特性。我们的系统证明了使用生物人工肝重建肝类器官是有效的。
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