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Transcriptional control of cone photoreceptor diversity by a thyroid hormone receptor

Michihiko Aramaki, Xuefeng Wu, Hong Liu, Ye Liu, Young‐Wook Cho, Mi-Na Song, Yulong Fu, Lily Ng, Douglas Forrest

2022Proceedings of the National Academy of Sciences34 citationsDOIOpen Access PDF

Abstract

Cone photoreceptor diversity allows detection of wavelength information in light, the first step in color (chromatic) vision. In most mammals, cones express opsin photopigments for sensitivity to medium/long (M, "green") or short (S, "blue") wavelengths and are differentially arrayed over the retina. Cones appear early in retinal neurogenesis but little is understood of the subsequent control of diversity of these postmitotic neurons, because cone populations are sparse and, apart from opsins, poorly defined. It is also a challenge to distinguish potentially subtle differences between cell subtypes within a lineage. Therefore, we derived a Cre driver to isolate individual M and S opsin-enriched cones, which are distributed in counter-gradients over the mouse retina. Fine resolution transcriptome analyses identified expression gradients for groups of genes. The postnatal emergence of gradients indicated divergent differentiation of cone precursors during maturation. Using genetic tagging, we demonstrated a role for thyroid hormone receptor β2 (TRβ2) in control of gradient genes, many of which are enriched for TRβ2 binding sites and TRβ2-regulated open chromatin. Deletion of TRβ2 resulted in poorly distinguished cones regardless of retinal location. We suggest that TRβ2 controls a bipotential transcriptional state to promote cone diversity and the chromatic potential of the species.

Topics & Concepts

OpsinPhotopigmentBiologyRetinaChromatinRetinalGeneticsCell biologyGeneNeuroscienceRhodopsinBiochemistryRetinal Development and DisordersNeurobiology and Insect Physiology ResearchPhotoreceptor and optogenetics research