Aurea Orozco scite author profile

We review the experimental evidence accumulated within the past decade regarding the physiologic, biochemical, and molecular characterization of iodothyronine deiodinases (IDs) in piscine species. Agnathans, chondrichthyes, and teleosts express the three isotypes of IDs: ID1, ID2, and ID3, which are responsible for the peripheral fine-tuning of thyroid hormone (TH) bioactivity. At the molecular and operational level, fish IDs share properties with their corresponding vertebrate counterparts. However, fish IDs also exhibit discrete features that seem to be distinctive for piscine species. Indeed, teleostean ID1 is conspicuously resistant to propylthiouracil (PTU) inhibition, and its response to thyroidal status differs from that exhibited by other ID1s. Moreover, both the high level of ID2 activity and its expression in the liver of teleosts are unique among vertebrates. The physiologic role of iodothyronine deiodination in functions regulated by TH in fish is not entirely clear. Nevertheless, current experimental evidence suggests that IDs may coordinate and facilitate, in a tissue-specific fashion, the action of iodothyronines and other hormones involved in such processes.

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3,5-T2 Is an Alternative Ligand for the Thyroid Hormone Receptor β1

Mendoza

Navarrete‐Ramírez

Hernández-Puga

et al. 2013

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Several liganded nuclear receptors have alternative ligands acting in a tissue-specific fashion and playing important biological roles. We present evidence that 3,5-diiodothyronine (T(2)), a naturally occurring iodothyronine that results from T(3) outer-ring deiodination, is an alternative ligand for thyroid hormone receptor β1 (TRβ1). In tilapia, 2 TRβ isoforms differing by 9 amino acids in the ligand-binding domain were cloned. Binding and transactivation studies showed that T(2) activates the human and the long tilapia TRβ1 isoform, but not the short one. A chimeric human TRβ1 (hTRβ1) that contained the 9-amino-acid insert showed no response to T(2), suggesting that the conformation of the hTRβ1 naturally allows T(2) binding and that other regions of the receptor are implicated in TR activation by T(2). Indeed, further analysis showed that the N terminus is essential for T(2)-mediated transactivation but not for that by T(3) in the long and hTRβ1, suggesting a functional interaction between the N-terminal domain and the insertion in the ligand-binding domain. To establish the functional relevance of T(2)-mediated TRβ1 binding and activation, mRNA expression and its regulation by T(2) and T(3) was evaluated for both isoforms. Our data show that long TRβ1expression is 10(6)-fold higher than that of the short isoform, and T(3) and T(2) differentially regulate the expression of these 2 TRβ1 isoforms in vivo. Taken together, our results prompted a reevaluation of the role and mechanism of action of thyroid hormone metabolites previously believed to be inactive. More generally, we propose that classical liganded receptors are only partially locked to very specific ligands and that alternative ligands may play a role in the tissue-specific action of receptors.

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Iodothyronine deiodinases: a functional and evolutionary perspective

Orozco¹,

Valverde-R²,

Olverá³

et al. 2012

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From an evolutionary perspective, deiodinases may be considered pivotal players in the emergence and functional diversification of both thyroidal systems (TS) and their iodinated messengers. To better understand the evolutionary pathway and the concomitant functional diversification of vertebrate deiodinases, in the present review we summarized the highlights of the available information regarding this ubiquitous enzymatic component that represents the final, common physiological link of TS. The information reviewed here suggests that deiodination of tyrosine metabolites is an ancient feature of all chordates studied to date and consequently, that it precedes the integration of the TS that characterize vertebrates. Phylogenetic analysis presented here points to D1 as the oldest vertebrate deiodinase and to D2 as the most recent deiodinase gene, a hypothesis that agrees with the notion that D2 is the most specialized and finely regulated member of the family and plays a key role in vertebrate neurogenesis. Thus, deiodinases seem to be major participants in the evolution and functional expansion of the complex regulatory network of TS found in vertebrates.

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3,5-di-iodothyronine stimulates tilapia growth through an alternate isoform of thyroid hormone receptor β1

Navarrete‐Ramírez¹,

Luna²,

Valverde-R³

et al. 2013

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Recent studies in our laboratory have shown that in some teleosts, 3,5-di-iodothyronine (T 2 or 3,5-T 2 ) is as bioactive as 3,5,3 0 -tri-iodothyronine (T 3 ) and that its effects are in part mediated by a TRb1 (THRB) isoform that contains a 9-amino acid insert in its ligand-binding domain (long TRb1 (L-TRb1)), whereas T 3 binds preferentially to a short TRb1 (S-TRb1) isoform that lacks this insert. To further understand the functional relevance of T 2 bioactivity and its mechanism of action, we used in vivo and ex vivo (organotypic liver cultures) approaches and analyzed whether T 3 and T 2 differentially regulate the S-TRb1 and L-TRb1s during a physiological demand such as growth. In vivo, T 3 and T 2 treatment induced body weight gain in tilapia. The expression of L-TRb1 and S-TRb1 was specifically regulated by T 2 and T 3 respectively both in vivo and ex vivo. The TR antagonist 1-850 effectively blocked thyroid hormone-dependent gene expression; however, T 3 or T 2 reversed 1-850 effects only on S-TRb1 or L-TRb1 expression, respectively. Together, our results support the notion that both T 3 and T 2 participate in the growth process; however, their effects are mediated by different, specific TRb1 isoforms.

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Aurea Orozco

Thyroid Hormone Deiodination in Fish

3,5-T2 Is an Alternative Ligand for the Thyroid Hormone Receptor β1

Iodothyronine deiodinases: a functional and evolutionary perspective

3,5-di-iodothyronine stimulates tilapia growth through an alternate isoform of thyroid hormone receptor β1

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