Iodothyronine Deiodinases and Thyroid Hormone Receptors Regulation During Flatfish (Solea senegalensis) Metamorphosis

Thyroid hormone-induced metamorphosis seems to represent an ancestral feature of chrordates (urochordates, cephalochordates and vertebrates), but also of nonchordate animals. Although thyroid hormones and thyroid hormone receptor profiles during metamorphosis have been analyzed in different vertebrate taxa, including fish, developmental expression and activity of type 2 (dio2, D2) and type 3 (dio3, D3) iodothyronine deiodinases, two key enzymes in anuran metamorphosis, remain unknown in any fish species. The aim of this work was to investigate the development of thyroid hormone system during the metamorphosis of a flatfish species, the Senegalese sole, focusing on the deiodinases developmental profile. We have cloned sole D2 and D3 and analyzed several parameters of thyroid hormones system in pre-, early-, middle-, and late-metamorphic larvae. Both deiodinases contain in their catalytic centers an UGA triplet encoding for a selenocystein (Sec) residue as expected. Left eye migration and rotation in body position were associated with a significant increase in both thyroid hormones and thyroid hormone receptors at the middle-late metamorphic stages. Although dio2 expression slightly increased during metamorphosis, D2 activity augmentation was much more significant. Sole dio3 expression declined only slightly, whereas the D3 activity clearly decreased at mid-late metamorphic period. This developmental profile of deiodinases sustained the rise of thyroid hormones levels observed during sole metamorphosis. No clear cut daily rhythms were observed in the parameters analyzed although it seemed that thyroid hormone system was more active during daytime, in particular at late metamorphic stages. These developmental changes point out the importance not only of thyroid hormones and their receptors but also of dio2 and dio3 in mediating flatfish metamorphosis, as it has been described in amphibians. J. Exp. Zool. (Mol. Dev. Evol.) 312B:231-246, 2009. (C) 2009 Wiley-Liss, Inc.