Lancaster Madeline A, Knoblich Juergen A
Institute of Molecular Biotechnology of the Austrian Academy of Sciences (IMBA), Vienna, Austria.
Nat Protoc. 2014 Oct;9(10):2329-40. doi: 10.1038/nprot.2014.158. Epub 2014 Sep 4.
Human brain development exhibits several unique aspects, such as increased complexity and expansion of neuronal output, that have proven difficult to study in model organisms. As a result, in vitro approaches to model human brain development and disease are an intense area of research. Here we describe a recently established protocol for generating 3D brain tissue, so-called cerebral organoids, which closely mimics the endogenous developmental program. This method can easily be implemented in a standard tissue culture room and can give rise to developing cerebral cortex, ventral telencephalon, choroid plexus and retinal identities, among others, within 1-2 months. This straightforward protocol can be applied to developmental studies, as well as to the study of a variety of human brain diseases. Furthermore, as organoids can be maintained for more than 1 year in long-term culture, they also have the potential to model later events such as neuronal maturation and survival.
人类大脑发育具有几个独特的方面,比如神经元输出的复杂性增加和扩展,这已证明在模式生物中难以进行研究。因此,用于模拟人类大脑发育和疾病的体外方法是一个热门研究领域。在此,我们描述了一种最近建立的生成三维脑组织(即所谓的大脑类器官)的方案,该方案紧密模拟内源性发育程序。这种方法可以在标准组织培养室中轻松实施,并且在1 - 2个月内能够产生发育中的大脑皮层、端脑腹侧、脉络丛和视网膜等结构。这个简单的方案可应用于发育研究以及各种人类脑部疾病的研究。此外,由于类器官在长期培养中可以维持一年以上,它们也有潜力模拟诸如神经元成熟和存活等后期事件。