Abstract
Thyroid hormone (TH) orchestrates amphibian metamorphosis. Thus, this developmental phase is often used to study TH-dependent responses in specific tissues. However, TH signaling appears early in development raising the question of the control of TH availability in specific cell types prior to metamorphosis. TH availability is under strict temporal and tissue-specific control by deiodinases. We examined the expression of the TH-inactivating enzyme, deiodinase type 3 (D3), during early retinal development. To this end we created a Xenopus laevis transgenic line expressing GFP from the Xenopus dio3 promoter region (pdio3) and followed pdio3–GFP expression in pre-metamorphic tadpoles. To validate retinal GFP expression in the transgenic line as a function of dio3 promoter activity, we used in situ hybridization to compare endogenous dio3 expression to reporter-driven GFP activity. Retinal expression of dio3 increased during pre-metamorphosis through stages NF41, 45 and 48. Both sets of results show dio3 to have cell-specific, dynamic expression in the pre-metamorphic retina. At stage NF48, dio3 expression co-localised with markers for photoreceptors, rods, Opsin-S cones and bipolar neurons. In contrast, in post-metamorphic juveniles dio3 expression was reduced and spatially confined to certain photoreceptors and amacrine cells. We compared dio3 expression at stages NF41 and NF48 with TH-dependent transcriptional responses using another transgenic reporter line: THbZIP-GFP and by analyzing the expression of T3-regulated genes in distinct TH availability contexts. At stage NF48, the majority of retinal cells expressing dio3 were negative for T3 signaling. Notably, most ganglion cells were virtually both dio3-free and T3-responsive. The results show that dio3 can reduce TH availability at the cellular scale. Further, a reduction in dio3 expression can trigger fine-tuned T3 action in cell-type specific maturation at the right time, as exemplified here in photoreceptor survival in the pre-metamorphic retina.
Highlights
Tissue specific availability of the two main forms of thyroid hormone, thyroxine (T4) and the most biologically active form, triiodothyronine (T3), orchestrates the complex developmental program of amphibian metamorphosis
To validate the dio3 transgenic green fluorescent protein (GFP) reporter signal in the retina, we compared it to the endogenous signal obtained with in situ hybridization (ISH) using antisense
Our findings show that dio3 displays a dynamic and cell-specific expression in the pre-metamorphic retina between NF41 and NF48
Summary
Tissue specific availability of the two main forms of thyroid hormone, thyroxine (T4) and the most biologically active form, triiodothyronine (T3), orchestrates the complex developmental program of amphibian metamorphosis. Development of the central nervous system is highly T3-dependent [1]. This is the case for retinal development, [2, 3]. Inducing a mutation in Xenopus laevis thrb ligand binding domain causes defects in eye development in embryos [4]. These data suggested that TH could have tissue specific responses during early stages of eye development. Nothing is known on the cell specific role of TH in amphibian eye development at pre-metamorphic stages and whether certain cell types would be sensitive to excess T3
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