Of Mice and Monkeys: Single-cell Analysis of the Mammalian Retina

Classifying and characterizing cell types and cell states has emerged as a high priority for biologists to understand the form, function and dysfunction of complex tissues such as the brain. While cell classification has a rich history, recent technological advances have made it possible to tackle this problem systematically and comprehensively, and test the foundations underlying the concept of a “cell taxonomy”. I have addressed these issues in the mammalian retina, a complex yet accessible part of the brain, using high-throughput single-cell RNA-seq. I will describe a nearly complete cell taxonomy of the mouse retina (~140 neuronal types), and discuss the extent to which molecularly defined types correspond to types defined by traditional morphological and physiological criteria. I will then describe recent efforts to use the mouse retinal taxonomy as a foundation to, (1) assess cell-intrinsic and non-autonomous features that mediate selective resilience of neuronal types in injury models, (2) generate taxonomies of non-human primates and humans, and (3) explore conservation of cell types across species. I will describe major computational innovations for single-cell transcriptomic analysis developed in these studies that are applicable to similar efforts in other systems