A characterization of mouse retinal ganglion cell types labeled with AAV tools
The mouse retina is made-up of approximately 150 types of neurons each with unique characteristics and functions in interpreting visual information. Recent efforts to categorize cell types using molecular markers, morphology, and electrophysiological response properties have provided a wealth of information and a host of tools for studying specific cell types. AAV-based approaches have several advantages over transgenic mouse lines, including ease of application to many different animal models without extensive crossing and their amenability to intersectional approaches. Here, we provide an in-depth characterization of retinal ganglion cell types labeled by two AAV vectors drawn from a recent panel of constructs with synthetic promoters. Each promoter analyzed here was derived from a gene expressed in a cell type specific manner. Using a combination of morphology, molecular markers, and electrophysiological measurement of light responses, we found that each vector labeled distinct subsets of RGCs. However, both labeled more cell types than expected from the expression pattern of the promoters endogenous gene. We then characterized the projection patterns of these RGC types to the brain, finding that each AAV type labeled distinct axonal populations. These tools provide new access to a unique subset of cells and will be instrumental to future studies analyzing their functions and connectivity.