Frank C Ko, Spencer Fullam, Hoomin Lee, Kelly Chan, Shingo Ishihara, Natalie S Adamczyk, Alia M Obeidat, Sarah Soorya, Richard J Miller, Anne-Marie Malfait, Rachel E Miller
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引用次数: 0
摘要
传统的二维(D)组织学方法视野有限,是阻碍我们了解痛觉神经在关节内外精确解剖分布的主要障碍。因此,我们的目标是开发一种工作流程,通过使用支持透明的光片显微镜来检查完整小鼠膝关节的三维神经支配。我们首先调查了现有的清除方案(SUMIC、PEGASOS 和 DISCO),以确定它们清除整个小鼠膝关节的能力,结果发现 DISCO 方案为光片显微成像提供了最佳透明度。我们随后修改了 DISCO 方案,以增强用于标记神经的抗体的结合力和穿透力。通过使用泛神经元 PGP9.5 抗体,我们的方案实现了小鼠膝关节及其周围神经支配的三维可视化。然后,我们在关节内注射神经生长因子(NGF)的小鼠身上实施了这一工作流程,以确定能否观察到神经密度的变化。光片显微镜图像的三维和二维分析方法都表明,注射 NGF 4 周后,关节内侧而非外侧的中关节神经密度发生了可量化的变化。我们首次提供了一个全面的工作流程,可对小鼠膝关节神经支配进行详细的三维量化检查。
Clearing-enabled light sheet microscopy as a novel method for three-dimensional mapping of the sensory innervation of the mouse knee.
A major barrier that hampers our understanding of the precise anatomic distribution of pain sensing nerves in and around the joint is the limited view obtained from traditional two dimensional (D) histological approaches. Therefore, our objective was to develop a workflow that allows examination of the innervation of the intact mouse knee joint in 3D by employing clearing-enabled light sheet microscopy. We first surveyed existing clearing protocols (SUMIC, PEGASOS, and DISCO) to determine their ability to clear the whole mouse knee joint, and discovered that a DISCO protocol provided the optimal transparency for light sheet microscopy imaging. We then modified the DISCO protocol to enhance binding and penetration of antibodies used for labeling nerves. Using the pan-neuronal PGP9.5 antibody, our protocol allowed 3D visualization of innervation in and around the mouse knee joint. We then implemented the workflow in mice intra-articularly injected with nerve growth factor (NGF) to determine whether changes in the nerve density can be observed. Both 3D and 2D analytical approaches of the light sheet microscopy images demonstrated quantifiable changes in midjoint nerve density following 4 weeks of NGF injection in the medial but not in the lateral joint compartment. We provide, for the first time, a comprehensive workflow that allows detailed and quantifiable examination of mouse knee joint innervation in 3D.
期刊介绍:
The Journal of Orthopaedic Research is the forum for the rapid publication of high quality reports of new information on the full spectrum of orthopaedic research, including life sciences, engineering, translational, and clinical studies.