a McGowan Institute for Regenerative Medicine; Department of Pathology ; University of Pittsburgh School of Medicine ; Pittsburgh , PA USA.
Organogenesis. 2014;10(3):323-31. doi: 10.1080/15476278.2014.995509. Epub 2015 Jan 7.
Given our recent finding that the lymph node (LN) can serve as an in vivo factory to generate complex structures like liver, pancreas, and thymus, we investigated whether LN could also support early development and maturation from several mid-embryonic (E14.5/15.5) mouse tissues including brain, thymus, lung, stomach, and intestine. Here we observed brain maturation in LN by showing the emergence of astrocytes with well-developed branching processes. Thymus maturation in LN was monitored by changes in host immune cells. Finally, newly terminally differentiated mucus-producing cells were identified in ectopic tissues generated by transplantation of lung, stomach and intestine in LN. Thus, we speculate the LN offers a unique approach to study the intrinsic and extrinsic differentiation potential of cells and tissues during early development, and provides a new site for bioengineering complex body parts.
鉴于我们最近发现淋巴结 (LN) 可以作为体内工厂,生成像肝脏、胰腺和胸腺这样的复杂结构,我们研究了 LN 是否也可以支持来自几个中胚层(E14.5/15.5)的早期发育和成熟 mouse 组织,包括脑、胸腺、肺、胃和肠。在这里,我们通过观察到具有发达分支过程的星形胶质细胞的出现来观察 LN 中的脑成熟。通过宿主免疫细胞的变化来监测 LN 中的胸腺成熟。最后,通过将肺、胃和肠移植到 LN 中,在异位组织中鉴定出新的终末分化粘液产生细胞。因此,我们推测 LN 提供了一种独特的方法来研究早期发育过程中细胞和组织的内在和外在分化潜力,并为生物工程复杂身体部位提供了一个新的场所。