Fluorescent reporter lines generated in human pluripotent stem cells are a highly useful tool to track, isolate, and analyze cell types and lineages in live cultures. Here, we generate the first human cone photoreceptor reporter cell line by CRISPR/Cas9 genome editing of a human embryonic stem cell (hESC) line to tag both alleles of the Guanine nucleotide-binding protein subunit gamma-T2 (GNGT2) gene with a mCherry reporter cassette. Three-dimensional optic vesicle-like structures were produced to verify reporter fidelity and track cones throughout their development in culture. The GNGT2-T2A-mCherry hESC line faithfully and robustly labels GNGT2-expressing cones throughout the entirety of their differentiation in vitro, recapitulating normal fetal expression of this gene. Our observations indicate that human cones undergo significant migratory activity during the course of differentiation in vitro. Consistent with this, our analysis of human fetal retinae from different stages of development finds positional differences of the cone population depending on their state of maturation. This novel reporter line will provide a useful tool for investigating human cone development and disease.
Keywords: GNGT2; cone photoreceptor; optic vesicles; retinal organoids; stem cells.
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