Department of Surgery, Tohoku University Graduate School of Medicine, Sendai, Japan.
Division of Transplantation and Regenerative Medicine, Tohoku University Graduate School of Medicine, Sendai, Japan.
J Tissue Eng Regen Med. 2021 Apr;15(4):361-374. doi: 10.1002/term.3170. Epub 2021 Feb 19.
Because of the fragility of isolated hepatocytes, extremely poor engraftment of transplanted hepatocytes remains a severe issue in hepatocyte transplantation. Therefore, improving hepatocyte engraftment is necessary to establish hepatocyte transplantation as a standard therapy. Since the pancreatic islets are known to have favorable autocrine effects, we hypothesized that the transplanted islets might influence not only the islets but also the nearby hepatocytes, subsequently promoting engraftment. We evaluated the effects of islet co-transplantation using an analbuminemic rat model (in vivo model). Furthermore, we established a mimicking in vitro model to investigate the underlying mechanisms. In an in vivo model, the hepatocyte engraftment was significantly improved only when the islets were co-transplanted to the nearby hepatocytes (p < 0.001). Moreover, the transplanted hepatocytes appeared to penetrate the renal parenchyma together with the co-transplanted islets. In an in vitro model, the viability of cultured hepatocytes was also improved by coculture with pancreatic islets. Of particular interest, the coculture supernatant alone could also exert beneficial effects comparable to islet coculture. Although insulin, VEGF, and GLP-1 were selected as candidate crucial factors using the Bio-Plex system, beneficial effects were partially counteracted by anti-insulin receptor antibodies. In conclusion, this study demonstrated that islet co-transplantation improves hepatocyte engraftment, most likely due to continuously secreted crucial factors, such as insulin, in combination with providing favorable circumstances for hepatocyte engraftment. Further refinements of this approach, especially regarding substitutes for islets, could be a promising strategy for improving the outcomes of hepatocyte transplantation.
由于分离肝细胞的脆弱性,移植肝细胞的极差植入仍然是肝细胞移植的一个严重问题。因此,改善肝细胞植入对于将肝细胞移植确立为标准疗法是必要的。由于胰岛具有有利的自分泌作用,我们假设移植的胰岛不仅可能影响胰岛,还可能影响附近的肝细胞,从而促进植入。我们使用白蛋白血症大鼠模型(体内模型)评估胰岛共移植的效果。此外,我们建立了一个模拟体外模型来研究潜在的机制。在体内模型中,只有当胰岛共移植到附近的肝细胞时,肝细胞的植入才会显著改善(p<0.001)。此外,移植的肝细胞似乎与共移植的胰岛一起穿透肾实质。在体外模型中,与胰岛共培养也能提高培养肝细胞的活力。有趣的是,共培养上清液本身也可以发挥与胰岛共培养相当的有益作用。虽然使用 Bio-Plex 系统选择了胰岛素、VEGF 和 GLP-1 作为候选关键因素,但抗胰岛素受体抗体部分抵消了有益作用。总之,这项研究表明胰岛共移植可以改善肝细胞的植入,这可能是由于不断分泌的关键因子,如胰岛素,以及为肝细胞植入提供有利条件。进一步改进这种方法,特别是关于胰岛的替代品,可能是改善肝细胞移植结果的一种有前途的策略。
