Abstract
The brain modulates specific functions in its various regions. Understanding the organization of different cells in the whole brain is crucial for investigating brain functions. Previous studies have focused on several regions and have had difficulty analyzing serial tissue samples. In this study, we introduced a pipeline to acquire anatomical and histological information quickly and efficiently from serial sections. First, we developed a serial brain-slice-staining method to stain serial sections and obtained more than 98.5% of slices with high integrity. Subsequently, using the self-developed analysis software, we registered and quantified the signals of imaged sections to the Allen Mouse Brain Common Coordinate Framework, which is compatible with multimodal images and slant section planes. Finally, we validated the pipeline with immunostaining by analyzing the activity variance in the whole brain during acute stress in aging and young mice. By removing the problems resulting from repeated manual operations, this pipeline is widely applicable to serial brain slices from multiple samples in a rapid and convenient manner, which benefits to facilitate research in life sciences.
Highlights
As the most complex organ in mammals, the brain is comprised of billions of cells (Zhao et al, 2020)
We found that several areas of the aging group presented a weak activity in the forced swimming test (FST) compared with the normal adult group, including the periaqueductal grey (PAG), paraventricular nucleus of the thalamus (PVT), ventromedial hypothalamic nucleus (VMH), and lateral septal nucleus (LS) (Figures 4D,E)
We developed a simple solution for batch processing of brain slices
Summary
As the most complex organ in mammals, the brain is comprised of billions of cells (Zhao et al, 2020) It is these cells with thousands of distinct types that interact with each other and forms a highly interconnected network, which provides consciousness and behavior (Craddock et al, 2013; Helmstaedter, 2013; Oh et al, 2014). To explore how these cells are organized together, researchers need to investigate the genotyping, distribution, and connections of different types of cells in each brain region.
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