Evolution of ligands, receptors and metabolizing enzymes of thyroid signaling

Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of thyroid disorders (developmental delay, mood disorder, tachycardia, etc), THs signaling is highly investigated, specially using mammalian mo...

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Published inMolecular and cellular endocrinology Vol. 459; pp. 5 - 13
Main Authors Holzer, Guillaume, Roux, Natacha, Laudet, Vincent
Format Journal Article
LanguageEnglish
Published Ireland Elsevier B.V 25.12.2017
Elsevier
Subjects
Animals
bioactive properties
Biological Evolution
Cellular Biology
Cnidaria
Cnidaria - anatomy & histology
Cnidaria - physiology
Echinodermata
emotions
enzymes
Evolution
frogs
Gene Expression Regulation, Developmental
Humans
Insecta - anatomy & histology
Insecta - physiology
insects
invertebrates
Iodide Peroxidase - genetics
Iodide Peroxidase - metabolism
Life Sciences
Ligands
metabolism
metamorphosis
Phylogeny
pleiotropy
Receptors, Thyroid Hormone - genetics
Receptors, Thyroid Hormone - metabolism
Signal Transduction - physiology
Species Specificity
tachycardia
Thyroid Gland - physiology
Thyroid hormone receptor
thyroid hormone receptors
thyroid hormones
Thyroxine - genetics
Thyroxine - metabolism
Triac
Triiodothyroacetic acid
Triiodothyronine
Triiodothyronine - analogs & derivatives
Triiodothyronine - genetics
Triiodothyronine - metabolism
Urochordata
Xenopus
Triac
Evolution
Triiodothyronine
Triiodothyroacetic acid
Thyroid hormone receptor
T3
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Abstract Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of thyroid disorders (developmental delay, mood disorder, tachycardia, etc), THs signaling is highly investigated, specially using mammalian models. In addition, the critical role of TH in controlling frog metamorphosis has led to the use of Xenopus as another prominent model to study THs action. Nevertheless, animals regarded as non-model species can also improve our understanding of THs signaling. For instance, studies in amphioxus highlighted the role of Triac as a bona fide thyroid hormone receptor (TR) ligand. In this review, we discuss our current understanding of the THs signaling in the different taxa forming the metazoans (multicellular animals) group. We mainly focus on three actors of the THs signaling: the ligand, the receptor and the deiodinases, enzymes playing a critical role in THs metabolism. By doing so, we also pinpoint many key questions that remain unanswered. How can THs accelerate metamorphosis in tunicates and echinoderms while their TRs have not been yet demonstrated as functional THs receptors in these species? Do THs have a biological effect in insects and cnidarians even though they do not have any TR? What is the basic function of THs in invertebrate protostomia? These questions can appear disconnected from pharmacological issues and human applications, but the investigation of THs signaling at the metazoans scale can greatly improve our understanding of this major endocrinological pathway. •The biological role of non-canonical ligands remains to be explored in vertebrates.•Comparative endocrinology shows that T4 and T3 might not be the original TR ligands.•The role of non-canonical ligands remains to be understood outside vertebrates.
AbstractList Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of thyroid disorders (developmental delay, mood disorder, tachycardia, etc), THs signaling is highly investigated, specially using mammalian models. In addition, the critical role of TH in controlling frog metamorphosis has led to the use of Xenopus as another prominent model to study THs action. Nevertheless, animals regarded as non-model species can also improve our understanding of THs signaling. For instance, studies in amphioxus highlighted the role of Triac as a bona fide thyroid hormone receptor (TR) ligand. In this review, we discuss our current understanding of the THs signaling in the different taxa forming the metazoans (multicellular animals) group. We mainly focus on three actors of the THs signaling: the ligand, the receptor and the deiodinases, enzymes playing a critical role in THs metabolism. By doing so, we also pinpoint many key questions that remain unanswered. How can THs accelerate metamorphosis in tunicates and echinoderms while their TRs have not been yet demonstrated as functional THs receptors in these species? Do THs have a biological effect in insects and cnidarians even though they do not have any TR? What is the basic function of THs in invertebrate protostomia? These questions can appear disconnected from pharmacological issues and human applications, but the investigation of THs signaling at the metazoans scale can greatly improve our understanding of this major endocrinological pathway.
Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of thyroid disorders (developmental delay, mood disorder, tachycardia, etc), THs signaling is highly investigated, specially using mammalian models. In addition, the critical role of TH in controlling frog metamorphosis has led to the use of Xenopus as another prominent model to study THs action. Nevertheless, animals regarded as non-model species can also improve our understanding of THs signaling. For instance, studies in amphioxus highlighted the role of Triac as a bona fide thyroid hormone receptor (TR) ligand. In this review, we discuss our current understanding of the THs signaling in the different taxa forming the metazoans (multicellular animals) group. We mainly focus on three actors of the THs signaling: the ligand, the receptor and the deiodinases, enzymes playing a critical role in THs metabolism. By doing so, we also pinpoint many key questions that remain unanswered. How can THs accelerate metamorphosis in tunicates and echinoderms while their TRs have not been yet demonstrated as functional THs receptors in these species? Do THs have a biological effect in insects and cnidarians even though they do not have any TR? What is the basic function of THs in invertebrate protostomia? These questions can appear disconnected from pharmacological issues and human applications, but the investigation of THs signaling at the metazoans scale can greatly improve our understanding of this major endocrinological pathway.Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of thyroid disorders (developmental delay, mood disorder, tachycardia, etc), THs signaling is highly investigated, specially using mammalian models. In addition, the critical role of TH in controlling frog metamorphosis has led to the use of Xenopus as another prominent model to study THs action. Nevertheless, animals regarded as non-model species can also improve our understanding of THs signaling. For instance, studies in amphioxus highlighted the role of Triac as a bona fide thyroid hormone receptor (TR) ligand. In this review, we discuss our current understanding of the THs signaling in the different taxa forming the metazoans (multicellular animals) group. We mainly focus on three actors of the THs signaling: the ligand, the receptor and the deiodinases, enzymes playing a critical role in THs metabolism. By doing so, we also pinpoint many key questions that remain unanswered. How can THs accelerate metamorphosis in tunicates and echinoderms while their TRs have not been yet demonstrated as functional THs receptors in these species? Do THs have a biological effect in insects and cnidarians even though they do not have any TR? What is the basic function of THs in invertebrate protostomia? These questions can appear disconnected from pharmacological issues and human applications, but the investigation of THs signaling at the metazoans scale can greatly improve our understanding of this major endocrinological pathway.
Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of thyroid disorders (developmental delay, mood disorder, tachycardia, etc), THs signaling is highly investigated, specially using mammalian models. In addition, the critical role of TH in controlling frog metamorphosis has led to the use of Xenopus as another prominent model to study THs action. Nevertheless, animals regarded as non-model species can also improve our understanding of THs signaling. For instance, studies in amphioxus highlighted the role of Triac as a bona fide thyroid hormone receptor (TR) ligand. In this review, we discuss our current understanding of the THs signaling in the different taxa forming the metazoans (multicellular animals) group. We mainly focus on three actors of the THs signaling: the ligand, the receptor and the deiodinases, enzymes playing a critical role in THs metabolism. By doing so, we also pinpoint many key questions that remain unanswered. How can THs accelerate metamorphosis in tunicates and echinoderms while their TRs have not been yet demonstrated as functional THs receptors in these species? Do THs have a biological effect in insects and cnidarians even though they do not have any TR? What is the basic function of THs in invertebrate protostomia? These questions can appear disconnected from pharmacological issues and human applications, but the investigation of THs signaling at the metazoans scale can greatly improve our understanding of this major endocrinological pathway. •The biological role of non-canonical ligands remains to be explored in vertebrates.•Comparative endocrinology shows that T4 and T3 might not be the original TR ligands.•The role of non-canonical ligands remains to be understood outside vertebrates.
Author Holzer, Guillaume
Roux, Natacha
Laudet, Vincent
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  fullname: Roux, Natacha
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  surname: Laudet
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  organization: Laboratoire de Biologie Intégrative des Organismes Marins UMR 7232, CNRS et Université Pierre et Marie Curie, Avenue Pierre Fabre, 66650 Banyuls-sur-Mer, France
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Keywords Triac
Evolution
Triiodothyronine
Triiodothyroacetic acid
Thyroid hormone receptor
T3
Language English
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Snippet Thyroid hormones (THs) play important roles in vertebrates such as the control of the metabolism, development and seasonality. Given the pleiotropic effects of...
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SubjectTerms Animals
bioactive properties
Biological Evolution
Cellular Biology
Cnidaria
Cnidaria - anatomy & histology
Cnidaria - physiology
Echinodermata
emotions
enzymes
Evolution
frogs
Gene Expression Regulation, Developmental
Humans
Insecta - anatomy & histology
Insecta - physiology
insects
invertebrates
Iodide Peroxidase - genetics
Iodide Peroxidase - metabolism
Life Sciences
Ligands
metabolism
metamorphosis
Phylogeny
pleiotropy
Receptors, Thyroid Hormone - genetics
Receptors, Thyroid Hormone - metabolism
Signal Transduction - physiology
Species Specificity
tachycardia
Thyroid Gland - physiology
Thyroid hormone receptor
thyroid hormone receptors
thyroid hormones
Thyroxine - genetics
Thyroxine - metabolism
Triac
Triiodothyroacetic acid
Triiodothyronine
Triiodothyronine - analogs & derivatives
Triiodothyronine - genetics
Triiodothyronine - metabolism
Urochordata
Xenopus
Title Evolution of ligands, receptors and metabolizing enzymes of thyroid signaling
URI https://dx.doi.org/10.1016/j.mce.2017.03.021
https://www.ncbi.nlm.nih.gov/pubmed/28342854
https://www.proquest.com/docview/1881447070
https://www.proquest.com/docview/2000364289
https://hal.sorbonne-universite.fr/hal-01494487
Volume 459
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