1. Multiplexed peroxidase-based electron microscopy labeling enables simultaneous visualization of multiple cell types
- Author
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Wei-Chung Allen Lee, David D. Ginty, David L. Paul, and Qiyu Zhang
- Subjects
0301 basic medicine ,Nervous system ,Cell type ,Confocal ,Genetic Vectors ,Mice, Transgenic ,Signal-To-Noise Ratio ,Inhibitory postsynaptic potential ,Multiplexing ,Article ,Adenoviridae ,law.invention ,03 medical and health sciences ,0302 clinical medicine ,Genes, Reporter ,law ,Microscopy ,medicine ,Animals ,Neurons, Afferent ,Cerebral Cortex ,Neurons ,Microscopy, Confocal ,biology ,Chemistry ,General Neuroscience ,Immunohistochemistry ,Cell biology ,Posterior Horn Cells ,Microscopy, Electron ,030104 developmental biology ,medicine.anatomical_structure ,Peroxidases ,Synapses ,biology.protein ,Electron microscope ,Neuroscience ,030217 neurology & neurosurgery ,Peroxidase - Abstract
Electron microscopy (EM) is a powerful tool for circuit mapping, but identifying specific cell types in EM datasets remains a major challenge. Here we describe a technique enabling simultaneous visualization of multiple genetically identified neuronal populations so that synaptic interactions between them can be unequivocally defined. We present 15 adeno-associated virus constructs and 6 mouse reporter lines for multiplexed EM labeling in the mammalian nervous system. These reporters feature dAPEX2, which exhibits dramatically improved signal compared with previously described ascorbate peroxidases. By targeting this enhanced peroxidase to different subcellular compartments, multiple orthogonal reporters can be simultaneously visualized and distinguished under EM using a protocol compatible with existing EM pipelines. Proof-of-principle double and triple EM labeling experiments demonstrated synaptic connections between primary afferents, descending cortical inputs, and inhibitory interneurons in the spinal cord dorsal horn. Our multiplexed peroxidase-based EM labeling system should therefore greatly facilitate analysis of connectivity in the nervous system.
- Published
- 2019
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