利用小分子化合物将犬低温保存的肝细胞重新编程为肝祖细胞。

IF 3.4 3区 环境科学与生态学 Q3 CELL & TISSUE ENGINEERING Regenerative Therapy Pub Date : 2024-11-08 eCollection Date: 2024-06-01 DOI:10.1016/j.reth.2024.09.003
Yu Yamazaki, Kaoruko Kikuchi, Yoko Yamada, Sakurako Neo, Suguru Nitta, Hirotaka Igarashi, Akihide Kamiya, Masaharu Hisasue
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引用次数: 0

摘要

导言:探索犬肝细胞分化和培养技术是建立肝移植和药物代谢测试系统的一种手段。然而,建立培养稳定肝细胞的一致方法仍是一项挑战。最近有几项研究表明,通过应用特定的小分子化合物,包括 Y-27632(一种 ROCK 抑制剂)、A-83-01(一种 TGFβ 抑制剂)和 CHIR99021(一种 GSK3 抑制剂)(称为 YAC),可分别在大鼠、小鼠和人体内将成熟肝细胞重编程为肝祖细胞。然而,在狗身上成功使用这些小分子化合物进行重编程的报道或证据却并不存在。本研究旨在诱导成熟的犬肝细胞分化为祖细胞:方法:将冷冻保存的犬肝细胞(cHep)在添加了 YAC 的肝细胞生长培养基中培养 14 天。随后进行了形态学观察、定量实时聚合酶链反应(qRT-PCR)和免疫细胞化学评估:结果:值得注意的是,冷冻保存的 cHep 细胞在 YAC 富集培养液中出现并表现出持续增殖,同时形成菌落。这些观察结果表明,成熟肝细胞重编程为肝祖细胞。此外,qRT-PCR 分析显示基因表达水平显著提高。具体来说,与诱导分化前的状态相比,肝祖细胞中编码α-胎儿蛋白(AFP)、上皮细胞粘附分子(EpCAM)、细胞角蛋白19(CK19)和SRY-box9(Sox9)的基因在第14天分别增加了约12、2.2、517和2.9。肝细胞相关蛋白 AFP、EPCAM、SOX9 和 CK19 的表达在第 21 天通过免疫细胞化学得到证实。相反,成熟肝细胞中高表达的 ALB 和 MRP2 与添加 YAC 前相比有所下降,这符合未分化肝细胞的特征:在本文中,我们利用三种小分子化合物有效地促进了冷冻保存的 cHep 细胞重编程为肝祖细胞。mRNA和蛋白质表达分析表明,肝祖细胞特异性标志物水平升高,而成熟肝细胞相关标志物水平降低,这表明利用YAC技术实现了将冷冻保存的cHep细胞重编程为肝祖细胞。因此,培养肝祖细胞有可能为开发人造肝脏提供有价值的见解,用于药物发现研究和移植治疗,以解决狗的肝脏疾病。
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Reprogramming canine cryopreserved hepatocytes to hepatic progenitor cells using small molecule compounds.

Introduction: Exploring techniques for differentiating and culturing canine hepatocytes serves as a means to establish systems for liver transplantation and drug metabolism testing. However, establishing consistent methods for culturing stable hepatocytes remains a challenge. Recently, several investigations have shown the reprogramming of mature hepatocytes into hepatic progenitor cells by applying specific small molecule compounds, including Y-27632, (a ROCK inhibitor), A-83-01 (a TGFβ inhibitor), and CHIR99021 (a GSK3 inhibitor) (termed YAC) in rat, mouse, and humans, respectively. However, reports or evidence of successful reprogramming using these small-molecule compounds in dogs are absent. This study aimed to induce the differentiation of mature canine hepatocytes into progenitor cells.

Methods: Cryopreserved canine hepatocytes (cHep) were cultured for 14 d in a YAC-supplemented hepatocyte growth medium. Subsequently, an assessment was conducted involving morphological observations, quantitative real-time polymerase chain reaction (qRT-PCR), and immunocytochemistry.

Results: Notably, cryopreserved cHep cells emerged and exhibited ongoing proliferation and concurrently developed colonies within the YAC-enriched culture. These observations indicated that the mature hepatocytes reprogrammed into hepatic progenitor cells. Moreover, qRT-PCR analysis revealed a notable enhancement in gene expression levels. Specifically, the genes encoding α-fetoprotein (AFP), epithelial cell adhesion molecule (EpCAM), Cytokeratin 19 (CK19) and SRY-box9 (Sox9) displayed approximately 12-, 2.2-, 517- and 2.9- increases in hepatic progenitor cells, respectively, on day 14 as compared to their state before induction of differentiation. Hepatocyte-related protein expression of AFP, EPCAM, SOX9 and CK19 was confirmed via immunocytochemistry on day 21. In contrast, ALB and MRP2, which are highly expressed in mature hepatocytes, were decreased compared to those before YAC addition, which is consistent with the characteristics of undifferentiated hepatocytes.

Conclusions: Herein, we effectively promoted the reprogramming of cryopreserved cHep cells into hepatic progenitor cells using three small-molecule compounds. The mRNA and protein expression analyses demonstrated increased levels of hepatic progenitor cells-specific markers, whereas markers related to mature hepatocytes decreased, suggesting that reprogramming cryopreserved cHep cells to hepatic progenitor cells was achieved using YAC. Therefore, cultivating liver progenitor cells holds the potential to offer valuable insights into the development of artificial livers for drug discovery research and transplantation therapy aimed at addressing liver diseases in dogs.

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来源期刊
Regenerative Therapy
Regenerative Therapy Engineering-Biomedical Engineering
CiteScore
6.00
自引率
2.30%
发文量
106
审稿时长
49 days
期刊介绍: Regenerative Therapy is the official peer-reviewed online journal of the Japanese Society for Regenerative Medicine. Regenerative Therapy is a multidisciplinary journal that publishes original articles and reviews of basic research, clinical translation, industrial development, and regulatory issues focusing on stem cell biology, tissue engineering, and regenerative medicine.
期刊最新文献
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