Neuroretina specification in mouse embryos requires Six3-mediated suppression of Wnt8b in the anterior neural plate
Wei Liu, … , Milan Jamrich, Guillermo Oliver
Wei Liu, … , Milan Jamrich, Guillermo Oliver
Published September 20, 2010
Citation Information: J Clin Invest. 2010;120(10):3568-3577. https://doi.org/10.1172/JCI43219.
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Neuroretina specification in mouse embryos requires Six3-mediated suppression of Wnt8b in the anterior neural plate

Abstract

Retinal degeneration causes vision impairment and blindness in humans. If one day we are to harness the potential of stem cell–based cell replacement therapies to treat these conditions, it is imperative that we better understand normal retina development. Currently, the genes and mechanisms that regulate the specification of the neuroretina during vertebrate eye development remain unknown. Here, we identify sine oculis–related homeobox 3 (Six3) as a crucial player in this process in mice. In Six3 conditional–mutant mouse embryos, specification of the neuroretina was abrogated, but that of the retinal pigmented epithelium was normal. Conditional deletion of Six3 did not affect the initial development of the optic vesicle but did arrest subsequent neuroretina specification. Ectopic rostral expansion of Wnt8b expression was the major response to Six3 deletion and the leading cause for the specific lack of neuroretina, as ectopic Wnt8b expression in transgenic embryos was sufficient to suppress neuroretina specification. Using chromatin immunoprecipitation assays, we identified Six3-responsive elements in the Wnt8b locus and demonstrated that Six3 directly repressed Wnt8b expression in vivo. Our findings provide a molecular framework to the program leading to neuroretina differentiation and may be relevant for the development of novel strategies aimed at characterizing and eventually treating different abnormalities in eye formation.

Authors

Wei Liu, Oleg Lagutin, Eric Swindell, Milan Jamrich, Guillermo Oliver

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Figure 2

Expression of typical optic vesicle markers is missing or defective in Six3 conditional–mutant embryos.

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Expression of typical optic vesicle markers is missing or defective in S...
(A) At the 13-somite stage, Fzd5 expression is normally seen in the optic vesicles (arrow) and ventral forebrain of control embryos. (B) This expression was absent in the Six3-mutant littermates. (C) At the 15-somite stage, normal Rax expression is seen in the optic vesicles (arrow). (D) In the mutant littermates, Rax expression is missing from the dorsal optic vesicles and does not separate properly in the ventral midline region of the forebrain (arrowhead). (E and G) At this same stage, Six6 expression is seen in presumptive NR progenitors in the optic vesicles (arrows) and ventral forebrain (arrowhead). (F and H) In Six3 conditional–mutant littermates, Six6 expression was almost completely absent from those territories (arrow and arrowhead). At the 21-somite stage, expression of the ventral (Vax2; I and J) and dorsal (Tbx5; K and L) optic vesicle markers was also undetectable in Six3-mutant embryos. (MP) At this stage, expression of Mitf remained in the mutant optic vesicles. Scale bar: 100 μm.