Vigouroux Robin J, Belle Morgane, Chédotal Alain
Sorbonne Universités, UPMC Univ Paris 06, INSERM, CNRS, Institut de la Vision, 17 Rue Moreau, 75012, Paris, France.
Mol Brain. 2017 Jul 20;10(1):33. doi: 10.1186/s13041-017-0314-y.
For centuries analyses of tissues have depended on sectioning methods. Recent developments of tissue clearing techniques have now opened a segway from studying tissues in 2 dimensions to 3 dimensions. This particular advantage echoes heavily in the field of neuroscience, where in the last several years there has been an active shift towards understanding the complex orchestration of neural circuits. In the past five years, many tissue-clearing protocols have spawned. This is due to varying strength of each clearing protocol to specific applications. However, two main protocols have shown their applicability to a vast number of applications and thus are exponentially being used by a growing number of laboratories. In this review, we focus specifically on two major tissue-clearing method families, derived from the 3DISCO and the CLARITY clearing protocols. Moreover, we provide a "hands-on" description of each tissue clearing protocol and the steps to look out for when deciding to choose a specific tissue clearing protocol. Lastly, we provide perspectives for the development of tissue clearing protocols into the research community in the fields of embryology and cancer.
几个世纪以来,组织分析一直依赖于切片方法。组织透明化技术的最新进展为从二维研究组织转向三维研究开辟了一条道路。这一独特优势在神经科学领域得到了强烈体现,在过去几年中,该领域正积极转向理解神经回路的复杂编排。在过去五年里,涌现出了许多组织透明化方案。这是因为每种透明化方案对特定应用的强度各不相同。然而,有两种主要方案已显示出它们在大量应用中的适用性,因此越来越多的实验室正成倍地使用它们。在本综述中,我们特别关注源自3DISCO和CLARITY透明化方案的两个主要组织透明化方法家族。此外,我们对每种组织透明化方案进行了“实操”描述,并说明了在决定选择特定组织透明化方案时需要注意的步骤。最后,我们为组织透明化方案在胚胎学和癌症等研究领域的发展提供了展望。