Your search keyword '"Valverde, R. A."' showing total 36 results

1. The variable region of iodothyronine deiodinases directs their catalytic properties and subcellular localization

Author

Carlos Valverde-R, Lidia Mayorga-Martínez, Patricia Kurczyn Villalobos, Aurora Olvera, Aurea Orozco, and Arturo Mendoza

Subjects

Fish Proteins, In silico, Molecular Sequence Data, Deiodinase, Iodide Peroxidase, Biochemistry, Xenopus laevis, Endocrinology, Catalytic Domain, Animals, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Peptide sequence, Cells, Cultured, biology, Endoplasmic reticulum, Subcellular localization, Transmembrane protein, Transport protein, Kinetics, Protein Transport, Thyroxine, Sharks, biology.protein, Triiodothyronine, Linker

Abstract

The stereospecific removal of iodine from thyroid hormones is an essential first step for T3 action and is catalyzed by three different deiodinases: D2 and D3 remove iodine only from the outer or inner ring, respectively, whereas D1 catalyzes both pathways. We used in silico predictions from vertebrate deiodinase sequences to identify two domains: the N-terminal variable region (VR) containing the transmembrane, hinge and linker domains, and the conserved or globular region (CR). Given the high sequence and structural identity of the CR among paralogs as well as of the VR among orthologs but not paralogs, we hypothesized that both the catalytic properties and the subcellular localization rely on the VR. We used shark D2 and D3 as templates to build the chimeric enzymes D2VR/D3CR and D3VR/D2CR. Biochemical characterization revealed that D3VR/D2CR has inner-ring deiodination activity and T3 as preferred substrate, whereas D2VR/D3CR showed no deiodinating activity. Also, D2VR/D3CR and D3VR/D2CR reside in the endoplasmic reticulum and plasmatic membrane, respectively, as do their D2 and D3 wild-type counterparts. We conclude that the VR determines the subcellular localization and is critical in defining the catalytic properties and activity of thyroid hormone deiodinases.

Published

2015

2. Iodothyronine deiodinases: a functional and evolutionary perspective

Author

Carlos Valverde-R, Carlota García-G, Aurea Orozco, and Aurora Olvera

Subjects

medicine.medical_specialty, biology, Phylogenetic tree, Endocrinology, Diabetes and Metabolism, Perspective (graphical), Deiodinase, Thyroid Gland, Genetic Variation, Vertebrate, Biological Evolution, Iodide Peroxidase, Endocrinology, Internal medicine, biology.animal, Functional expansion, medicine, biology.protein, Animals, Tyrosine, Chordata, Gene, Phylogeny

Abstract

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.

Published

2012

3. Cloning and characterization of a type 3 iodothyronine deiodinase (D3) in the liver of the chondrichtyan chiloscyllium punctatum

Author

Carlos Valverde-R, Patricia Kurczyn Villalobos, Lidia Martínez, and Aurea Orozco

Subjects

Thyroid Hormones, DNA, Complementary, Chiloscyllium punctatum, Molecular Sequence Data, Deiodinase, DIO2, Iodide Peroxidase, chemistry.chemical_compound, Endocrinology, Animals, Amino Acid Sequence, Cloning, Molecular, Peptide sequence, chemistry.chemical_classification, Base Sequence, biology, Selenocysteine, biology.organism_classification, Recombinant Proteins, Amino acid, Kinetics, Liver, Biochemistry, chemistry, Iodothyronine deiodinase, Microsomes, Liver, Sharks, biology.protein, Animal Science and Zoology, Thyroid function

Abstract

Thyroid hormone bioactivity is finely regulated at the cellular level by the peripheral iodothyronine deiodinases (D). The study of thyroid function in fish has been restricted mainly to teleosts, whereas the study and characterization of Ds have been overlooked in chondrichthyes. Here we report the cloning and operational characterization of both the native and the recombinant hepatic type 3 iodothyronine deiodinase in the tropical shark Chiloscyllium punctatum. Native and recombinant sD3 show identical catalytic activities: a strong preference for T3-inner-ring deiodination, a requirement for a high concentration of DTT, a sequential reaction mechanism, and resistance to PTU inhibition. The cloned cDNA contains 1298 nucleotides [excluding the poly(A) tail] and encodes a predicted protein of 259 amino acids. The triplet TGA coding for selenocysteine (Sec) is at position 123. The consensus selenocysteine insertion sequence (SECIS) was identified 228 bp upstream of the poly(A) tail and corresponds to form 2. The deduced amino acid sequence was 77% and 72% identical to other D3 cDNAs in fishes and other vertebrates, respectively. As in the case of other piscivore teleost species, shark expresses hepatic D3 through adulthood. This characteristic may be associated with the alimentary strategy in which the protection from an exogenous overload of thyroid hormones could be of physiological importance for thyroidal homeostasis.

Published

2008

4. Functional identification of an osmotic response element (ORE) in the promoter region of the killifish deiodinase 2 gene (FhDio2)

Author

Carlota Garcı́a-G, Carlos Valverde-R, Patricia Kurczyn Villalobos, L López-Bojórquez, and Aurea Orozco

Subjects

Fish Proteins, Thyroid Hormones, Osmotic shock, Physiology, Deiodinase, Electrophoretic Mobility Shift Assay, Aquatic Science, Response Elements, Iodide Peroxidase, Gene Expression Regulation, Enzymologic, Osmotic Pressure, Fundulidae, Transcriptional regulation, Animals, Homeostasis, Electrophoretic mobility shift assay, RNA, Messenger, Killifish, Molecular Biology, Conserved Sequence, Ecology, Evolution, Behavior and Systematics, Regulation of gene expression, Base Sequence, NFATC Transcription Factors, biology, Protein-Tyrosine Kinases, biology.organism_classification, Molecular biology, Cell biology, Insect Science, Iodothyronine deiodinase, Osmoregulation, biology.protein, Animal Science and Zoology

Abstract

SUMMARY The physiological role played by thyroid hormones (TH) in hydro-osmotic homeostasis in fish remains a controversial issue. Previous studies have shown that in Fundulus heteroclitus (killifish) hypo-osmotic stress increases liver iodothyronine deiodinase type 2 (D2) mRNA and D2 activity. In this study we identified two conserved osmotic response element (ORE) motifs in the promoter region of the killifish D2 gene (FhDio2) and examined their possible role in the transcriptional regulation of FhDio2during hypo-osmotic stress. As assessed by the electrophoretic mobility shift assay, results from in vivo and in vitro experiments demonstrate that exposure to an abrupt hyposmotic challenge triggers in the liver of killifish a strong nuclear recruitment of a putative osmotic response element binding protein (OREBP). This protein–DNA binding is time-dependent, attains a maximum within 2–8 h after the osmotic stress,and is followed by a significant increase in D2 activity. Furthermore,protein–DNA binding and the subsequent elevation in enzyme activity were blocked by the tyrosine kinase inhibitor genistein. Thus, during hypo-osmotic stress, a putative OREBP kinase-activated pathway stimulates FhDio2transcription and enzymatic activity. These data and the fact that D2 is the major enzyme providing local intracellular T3 suggest that TH plays a direct role in osmoregulation in fish, possibly by participating in hepatic ammonia metabolism. This study provides important insight into the physiological role of TH in hydro-osmotic homeostasis in fish.

Published

2007

5. Effects of iodothyronines on the hepatic outer-ring deiodinating pathway in killifish

Author

Michael C. Jeziorski, Carlota Garcı́a-G, Carlos Valverde-R, and Aurea Orozco

Subjects

Male, medicine.medical_specialty, Diiodothyronines, Deiodinase, Thyroid Gland, Regulator, DIO2, Iodide Peroxidase, Polymerase Chain Reaction, Gene Expression Regulation, Enzymologic, Endocrinology, Transcription (biology), Fundulidae, Internal medicine, medicine, Animals, RNA, Messenger, Killifish, chemistry.chemical_classification, biology, Metabolism, biology.organism_classification, Enzyme Activation, Thyroxine, Enzyme, Liver, chemistry, Iodothyronine deiodinase, biology.protein, Triiodothyronine, Animal Science and Zoology

Abstract

Substrate availability has been thought to be a major regulator of the outer-ring deiodinating pathway (ORD) in fish. However, current information strongly suggests that while fish iodothyronine deiodinase type 2 (D2) responds to iodothyronines in the same manner as its mammalian counterpart, fish deiodinase type 1 (D1) exhibits a distinct response. Furthermore, 3,5-T 2 , generally considered to be an inactive product of iodothyronine metabolism, has recently been described as bioactive, but its effects upon D1 and D2 are not yet known. We examined the effect that short-term immersion in T 4 , T 3 , and 3,5-T 2 (0.1 μM; 12 or 24 h) exerts on both D1 and D2 activities and on the levels of expression of D1 and D2 mRNAs in killifish liver. In agreement with previous reports in teleosts, no iodothyronine exerted a significant effect on D1 enzymatic activity. However, all three iodothyronines significantly decreased D2 activity. Furthermore, at 24 h post-immersion T 4 , T 3 , and 3,5-T 2 inhibited both D1 and D2 transcription. Together, the present results confirm the differential effect of iodothyronines upon the hepatic ORD pathway in fish and show that this effect can occur at a transcriptional level. Furthermore, we provide the first evidence that 3,5-T 2 can affect both activity and transcription of hepatic deiodinases in teleosts.

Published

2004

6. Temporal profile of the outer- and inner-ring iodothyronine deiodinase pathways in the liver and skin in developing rainbow trout Oncorhynchus mykiss

Author

A. Orozco, Carlos Valverde-R, and B. Fenton

Subjects

medicine.medical_specialty, Triiodothyronine, Physiology, General Medicine, Aquatic Science, Biology, Biochemistry, Reverse triiodothyronine, Dithiothreitol, chemistry.chemical_compound, Endocrinology, chemistry, Iodothyronine deiodinase, Internal medicine, Time course, medicine, Sexual maturity, Rainbow trout, Gametogenesis

Abstract

We measured the activities of iodothyronine-activating (D1 and D2) and -inactivating (D3) deiodinases, as well as the circulating levels of their corresponding substrates and/or products, T4 ,T 3 ,a nd rT 3, in the developing rainbow trout. The study was conducted through 20 consecutive months and included fry, fingerlings, and mature animals from 14 to 88 weeks post-hatching (ph). Initially, blood concentration of active iodothyronines was low and tissue D3 activity was greater than the activity of D1 and D2. As fry developed into fingerlings, the activity of liver D2 increased, while that of skin D3 declined. The time course of these changes was directly (T3) or inversely (rT3 and D3) correlated to an increase in age, length, and body weight. The initial increment in both circulating T3 and hepatic D2 activity during the first spring (March-April; weeks 46–50 ph) coincided with the onset of gonadal differentiation, whereas the highest values of T3 and hepatic D1 and D2 (September–October; weeks 70–74 ph) occurred at the onset of sexual maturity. These results suggest that a hepatic supply of active T3 is temporally associated with gametogenesis. Abbreviations: ANS – 8-anilin-1-naphthalene sulphonic acid; DTT – Dithiothreitol; ph – post-hatching; T4 – thyroxine; T3 – triiodothyronine; rT3 – reverse triiodothyronine; T2 – diiodothyronine.

Published

2003

7. The liver of Fundulus heteroclitus expresses deiodinase type 1 mRNA

Author

Patricia Kurczyn Villalobos, Aurea Orozco, Michael C. Jeziorski, and Carlos Valverde-R

Subjects

Male, Untranslated region, DNA, Complementary, animal structures, Molecular Sequence Data, Deiodinase, Gene Expression, Transfection, Iodide Peroxidase, Xenopus laevis, chemistry.chemical_compound, Endocrinology, Fundulidae, Complementary DNA, Animals, Amino Acid Sequence, RNA, Messenger, Killifish, Northern blot, Peptide sequence, Base Sequence, Selenocysteine, biology, Reverse Transcriptase Polymerase Chain Reaction, biology.organism_classification, Molecular biology, Open reading frame, Liver, chemistry, Propylthiouracil, DNA Transposable Elements, Oocytes, biology.protein, Nucleic Acid Conformation, Female, Animal Science and Zoology, Sequence Alignment

Abstract

The presence of a type 1 deiodinase (D1) in the liver of teleosts has been a controversial issue. Recently we characterized the deiodinase activity in rainbow trout and killifish liver and found that the liver of both species co-expresses the two enzymes (D1 and D2) that catalyze the outer ring-deiodinating pathway. We here report the cloning and characterization of an mRNA from the liver of the killifish Fundulus heteroclitus that encodes a D1 (FhD1). The cDNA amplified by RT-PCR from F. heteroclitus liver is 1314 nt long and encodes a protein of 248 aa. It contains a TGA codon in its open reading frame and a selenocysteine insertion sequence in its 3′ untranslated region, consistent with the structure of a selenoenzyme mRNA. The deduced peptide sequence is 73% identical to that encoded by the tilapia D1 cDNA cloned from kidney and 46% identical to the D1s reported in other vertebrates. Northern blot analysis shows that FhD1 mRNA is expressed in F. heteroclitus liver, consistent with prior biochemical evidence for hepatic D1 activity. Furthermore, heterologous expression of the FhD1 cDNA resulted in a protein with properties similar to the D1-like activity in F. heteroclitus liver. The cloned enzyme, like the native species, is relatively insensitive to inhibition by PTU, but mutation of Ser-159 in FhD1 to the Pro residue found in D2 and D3 isoforms increased the sensitivity to PTU. Our results show that, under basal conditions, killifish liver indeed expresses a D1 enzyme that is homologous to mammalian D1s, establishing this as a useful model in which to study the regulation of D1 and D2 concurrently.

Published

2003

8. Cloning of the gene and complete cDNA encoding a type 2 deiodinase from

Author

Paul J. Linser, Michael C. Jeziorski, Aurea Orozco, Carlos Valverde-R, and Robert M. Greenberg

Subjects

Untranslated region, Genetics, animal structures, Intron, DIO2, Biology, Molecular biology, Exon, Open reading frame, Endocrinology, Complementary DNA, Coding region, Animal Science and Zoology, Gene

Abstract

Recently, we reported the cloning of a cDNA fragment from Fundulus heteroclitus liver encoding the open reading frame of type 2 deiodinase (FhD2). We here report the cloning of 14 kb of genomic sequence from F. heteroclitus that includes the previously reported coding region of the F. heteroclitus Dio2 gene (FhDio2), the 5′ and 3′ untranslated regions, and flanking regions and introns. This FhDio2 gene comprises two exons divided by a 4.8-kb intron. The position of the intron is similar to that of introns in other Dio2 genes. The analysis of approximately 1.3 kb of genomic sequence upstream of the mRNA start site revealed that, in contrast to mammalian Dio2 genes, there were no apparent TATA or CRE sequences. Nevertheless, a putative Sp1 site was found, similar to that in other F. heteroclitus TATA-less promoters. We have also cloned the complete FhD2 cDNA, which spans 4652 bp and contains a sequence adjacent to its poly(A) tail that is highly similar to the selenocysteine insertion sequence (SECIS) found in human D2 cDNA. The expression of a construct containing the FhD2 ORF plus the native SECIS resulted in a protein with deiodinase activity similar to that of the native FhD2. Analysis of the regulation of this gene, combined with ongoing studies of the F. heteroclitus D1 gene, will allow us to elucidate the functions of the colocalized deiodinases in teleost liver.

Published

2002

9. Cold-Induced Increment in Rat Adrenal Gland

Author

Carlos Valverde-R and Brenda Anguiano

Subjects

medicine.medical_specialty, Metyrapone, biology, Rat Adrenal Gland, Adrenal gland, Chemistry, Endocrinology, Diabetes and Metabolism, Deiodinase, medicine.disease, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Corticosterone, Internal medicine, Diabetes mellitus, medicine, biology.protein, Cold stress, Aminoglutethimide, medicine.drug

Abstract

In this study we analyzed whether corticosterone synthesis is involved in the regulation of adrenal gland type II deiodinase (AG-D2) activity during acute cold exposure. Two well-known inhibitors of steroidogenesis, aminoglutethimide (AGT) and metyrapone (MTP), were administered to male Wistar rats maintained either at room temperature or acutely exposed to cold (1 h at 4°C). AG-D2 activity was measured by the radioiodide release method, and corticosterone circulating levels were measured by competitive protein binding assay. Results show that resting corticosterone levels and AG-D2 activity were lower in both AGT-and MTP-treated rats. Furthermore, the phasic increase normally exhibited by AG-D2 activity in response to acute cold stress was blunted in AGT-and MTP-treated animals. Therefore, we conclude that corticosterone synthesis is necessary in preserving the physiologic response of Ag-D2 activity to cold exposure.

Published

2001

10. Hepatic Outer-Ring Deiodinase in a Mexican Endemic Lizard (Sceloporus grammicus)

Author

Carlos Valverde-R and Bertha Fenton

Subjects

Male, medicine.medical_specialty, Sceloporus grammicus, Triiodothyronine, Reverse, Range (biology), Deiodinase, Iodide Peroxidase, Endocrinology, Pregnancy, biology.animal, Internal medicine, medicine, Animals, Enzyme Inhibitors, Aurothioglucose, chemistry.chemical_classification, Sex Characteristics, biology, Lizard, Temperature, Lizards, Hydrogen-Ion Concentration, Pregnant female, biology.organism_classification, Sexual dimorphism, Dithiothreitol, Kinetics, Enzyme, Liver, chemistry, Propylthiouracil, biology.protein, Female, Animal Science and Zoology, Seasons, Adaptation

Abstract

The kinetic characterization of the outer-ring deiodination pathway using rT(3) (rT(3)-ORD) in male, female, and pregnant female livers of an endemic lizard, Sceloporus grammicus, is reported. The ORD pathway does not have the characteristics of deiodinase type II; it is exclusively carried out by deiodinase type I (DI). DI enzymatic activity in lizard liver contains one of the highest activities reported in vertebrates. This activity is sexually dimorphic, with males presenting the highest activity during the reproductive season. The properties of this enzyme correspond to those described in mammals, such as specificity for rT(3), susceptibility to inhibition by 6-n-propyl-2-thiouracil and gold-thioglucose, cofactor requirement, and kinetic pattern. Unlike other vertebrates, the lizard DI exhibits conspicuous stability in the thermal range of 15 to 42 degrees C and in the pH range of 5.0 to 9.0. Male true kinetic constants exhibit a direct correlation with temperature. This is in agreement with short-term adaptation to microenvironmental changes and the feasible expression of enzymatic forms/variants which, together, endow this lizard species with a greater adaptation to natural daily ambient thermal fluctuations.

Published

2000

11. Mammary Type I Deiodinase Is Dependent on the Suckling Stimulus: Differential Role of Norepinephrine and Prolactin*

Author

Carlos Valverde-R, Carmen Aceves, Oscar Pineda, MarÍa de la Luz Navarro, and Irene Ramirez-C

Subjects

medicine.medical_specialty, Time Factors, Deiodinase, Biology, Iodide Peroxidase, Norepinephrine (medication), Norepinephrine, Mammary Glands, Animal, Endocrinology, Lactation, Internal medicine, medicine, Animals, RNA, Messenger, Rats, Wistar, chemistry.chemical_classification, Messenger RNA, Adrenergic nervous system, Prolactin, Rats, Enzyme, medicine.anatomical_structure, chemistry, Oxytocin, biology.protein, Female, medicine.drug

Abstract

Mammary deiodinase type I (M-D1) is present only during lactation and exhibits a clear direct correlation with lactation intensity (size of litters). The present work shows that M-D1 is suckling dependent and that intervals between suckling periods no longer than 12 h are essential to maintain this activity. Moreover, we find that with only 15 min of resuckling in 12-h nonsuckled mothers, the 50% decrease in both M-D1 messenger RNA and enzymatic activity could be restored to control values. This restorative effect by suckling may involve pre- and posttranscriptional mechanisms in which norepinephrine and PRL play important roles. Norepinephrine elicits a potent stimulatory effect on M-D1 messenger RNA and enzyme activities, whereas PRL only increases M-D 1 activity and may modulate the enzyme response to norepinephrine. Oxytocin and GH had no effect. These data suggest that the adrenergic nervous system and PRL could directly participate in mammary energetic expenditure, regulating the local T3 supply.

Published

1999

12. Iodothyronine Deiodinases

Author

Ludivina Robles-Osorio, Aurea Orozco, Carlos Valverde-R, and Juan Carlos Solís-S

Subjects

medicine.medical_specialty, biology, Cell growth, Thyroid, Deiodinase, Type 2 Diabetes Mellitus, Lipid metabolism, Disease, Bioinformatics, medicine.anatomical_structure, Endocrinology, Internal medicine, medicine, biology.protein, Intracellular, Hormone

Abstract

Iodothyronine deiodinases, a ubiquitous family of selenoenzymes, are key tissue-specific regulators of intracellular thyroid hormone availability and signaling. This chapter reviews current information supporting the notion that the altered expression and/or activity of deiodinases contribute to the pathophysiology of diverse clinical disorders. Experimental and clinical evidence establishes an association of polymorphisms in deiodinase genes with mood, affective and cognitive functioning, as well as type 2 diabetes mellitus and lipid metabolism. Similarly, an imbalance in the activating and inactivating deiodinase pathways may promote cell proliferation and/or invasiveness of different types of neoplasms. Although a clear-cut picture has not yet been achieved, emerging data support the notion that the deiodinase-dependent thyroid hormone transcriptional footprint has a profound functional impact in health and disease.

Published

2014

13. Mammary Gland Type I Iodothyronine Deiodinase Is Encoded by a Short Messenger Ribonucleic Acid1

Author

Carlos Valverde-R, Abraham Landa, Carmen Aceves, and Luz Navarro

Subjects

chemistry.chemical_classification, medicine.medical_specialty, Messenger RNA, Mammary gland, Thyroid, Biology, Molecular biology, Open reading frame, Endocrinology, medicine.anatomical_structure, Enzyme, chemistry, Internal medicine, Complementary DNA, Lactation, medicine, Coding region

Abstract

Lactating rat mammary gland expresses a deiodinating activity that, on the basis of kinetic characteristics, corresponds to the socalled 59-deiodinase type I (D1). In the present study we amplified and sequenced several D1 complementary DNA (cDNA) fragments from rat lactating mammary gland. The mammary cDNA was found to be identical to the previously reported rat liver cDNA in the coding region, but 465 nucleotides shorter on its 39-untranslated region, suggesting that the D1 is the same in both tissues. D1 messenger RNA (mRNA) was also detected by reverse transcriptase-PCR in mammary glands from puberal and late pregnant rats, but not in virgin animals. Densitometric analysis showed a close and direct correlation between mRNA content and enzyme specific activity in mammary gland. Our results also show that rat liver contains both D1 mRNA forms and that the large form may respond to the thyroid status. These data suggest a differential and organ-specific expression of these mRNA forms, which could play a role in the functional regulation of D1 activity. (Endocrinology 138: 4248 ‐ 4254, 1997)

Published

1997

14. Cloning and Expression of a 5′-Iodothyronine Deiodinase from the Liver ofFundulus heteroclitus1

Author

Gary LaFleur, Donald L. St. Germain, Carlos Valverde-R, Aurea Orozco, and Walburga Croteau

Subjects

Genetics, endocrine system, medicine.medical_specialty, animal structures, Triiodothyronine, biology, Selenocysteine, Deiodinase, Molecular cloning, biology.organism_classification, Fundulus, chemistry.chemical_compound, Endocrinology, chemistry, Complementary DNA, Internal medicine, Iodothyronine deiodinase, medicine, biology.protein, Peptide sequence

Abstract

Recent molecular cloning studies in mammals and amphibians have demonstrated that the types I, II, and III deiodinases constitute a family of selenoproteins of critical importance in metabolizing T4 to active (i.e. T3) and inactive (i.e. rT3) metabolites. In several tissues of teleost fish, various deiodinase processes have been described, but the structural and functional characteristics of these enzymes and their relationship to the deiodinases present in higher vertebrates remains uncertain. Using a complementary DNA library derived from the liver of the teleost Fundulus heteroclitus, we have identified a complementary DNA that codes for a deiodinase with functional characteristics virtually identical to those of the mammalian and amphibian type II deiodinase. Sequence analysis demonstrates a high degree of homology at both the nucleotide and predicted amino acid levels between the Fundulus clone and these previously characterized type II enzymes, including the presence of an in-frame TGA codon that codes for selenocysteine. These findings demonstrate that the deiodinase family of selenoproteins has been highly conserved during vertebrate evolution and underscores their importance in the regulation of thyroid hormone action.

Published

1997

15. Rainbow Trout Liver Expresses Two Iodothyronine Phenolic Ring Deiodinase Pathways with the Characteristics of Mammalian Types I and II 5′-Deiodinases1

Author

Carlos Valverde-R, Aurea Orozco, and J. Enrique Silva

Subjects

chemistry.chemical_classification, endocrine system, medicine.medical_specialty, biology, Thyroxine deiodinase, Deiodinase, Thyroid, biology.organism_classification, Dithiothreitol, Cofactor, Trout, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Enzyme, Biochemistry, chemistry, Internal medicine, biology.protein, medicine, Propylthiouracil, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Deiodinases are major determinants of thyroid hormone tissue availability and disposal. The knowledge of the expression of these enzymes in lower species is important to understand evolutionary and ontogenetic aspects of thyroid hormone action and metabolism. Here we have studied outer ring deiodination in the trout liver using both reverse T3 (rT3) and T4 as substrates. The use of rT3 disclosed two enzymatic components with the characteristics of mammalian types I and II 5′-deiodinases. The high rT3-Km type I 5′-deiodinase activity (180 nm) has a low cofactor requirement (5 mm dithiothreitol) and is relatively sensitive to propylthiouracil inhibition, whereas the low rT3-Km activity was akin to the outer ring deiodination of T4 in these regards. The use of T4 exhibited only a single type of activity with a low Km (0.63 nm), a relatively high cofactor requirement (25 mm dithiothreitol), and propylthiouracil-resistance. Teleosts constitute a unique example of type II activity expression in the liver of an ...

Published

1997

16. 3,5-di-iodothyronine stimulates tilapia growth through an alternate isoform of thyroid hormone receptor β1

Author

Aurea Orozco, Pamela Navarrete-Ramírez, Carlos Valverde-R, and Maricela Luna

Subjects

Gene isoform, Regulation of gene expression, Thyroid hormone receptor, Triiodothyronine, Diiodothyronines, Body Weight, Thyroid Hormone Receptors beta, Biology, Molecular biology, Iodide Peroxidase, Thyroid hormone receptor beta, Endocrinology, Mechanism of action, Gene Expression Regulation, Liver, In vivo, medicine, Animals, Protein Isoforms, medicine.symptom, Insulin-Like Growth Factor I, Molecular Biology, Ex vivo, Tilapia

Abstract

Recent studies in our laboratory have shown that in some teleosts, 3,5-di-iodothyronine (T2 or 3,5-T2) is as bioactive as 3,5,3′-tri-iodothyronine (T3) and that its effects are in part mediated by a TRβ1 (THRB) isoform that contains a 9-amino acid insert in its ligand-binding domain (long TRβ1 (L-TRβ1)), whereas T3 binds preferentially to a short TRβ1 (S-TRβ1) isoform that lacks this insert. To further understand the functional relevance of T2 bioactivity and its mechanism of action, we used in vivo and ex vivo (organotypic liver cultures) approaches and analyzed whether T3 and T2 differentially regulate the S-TRβ1 and L-TRβ1s during a physiological demand such as growth. In vivo, T3 and T2 treatment induced body weight gain in tilapia. The expression of L-TRβ1 and S-TRβ1 was specifically regulated by T2 and T3 respectively both in vivo and ex vivo. The TR antagonist 1–850 effectively blocked thyroid hormone-dependent gene expression; however, T3 or T2 reversed 1–850 effects only on S-TRβ1 or L-TRβ1 expression, respectively. Together, our results support the notion that both T3 and T2 participate in the growth process; however, their effects are mediated by different, specific TRβ1 isoforms.

Published

2013

17. WHERE IS THE DEIODINASE SELECTIVITY FOR ORD OR IRD LOCATED? A STRUCTURE-FUNCTION APPROACH

Author

Valverde-R Carlos

Subjects

biology, Chemistry, Stereochemistry, Endocrinology, Diabetes and Metabolism, Structure function, Deiodinase, biology.protein, Selectivity

Published

2011

18. Ontogenesis of iodothyronine deiodinase activities in brain and liver of the chick embryo

Author

Carmen Aceves, Carlos Valverde-R, and E Reyes

Subjects

medicine.medical_specialty, Neuroblast proliferation, Thyroxine deiodinase, Embryogenesis, Central nervous system, Synaptogenesis, Brain, Embryo, Chick Embryo, Biology, Iodide Peroxidase, Embryonic and Fetal Development, Kinetics, Endocrinology, medicine.anatomical_structure, Liver, Organ Specificity, Iodothyronine deiodinase, Internal medicine, medicine, Animals, Propylthiouracil, medicine.drug

Abstract

The ontogeny of 5'-monodeiodinase activity (5'-MA) was analyzed in chick embryo brain and liver tissue. The enzymatic type predominant in this path and the activity of the deactivating pathway (5 MA-III) were determined during certain periods of neural development in both organs. Results show that T3 is predominantly formed in both organs during the first third of embryogenesis (from day 5) until neuroblast proliferation (day 13). Within this lapse, the slow type II enzyme (insensible to propylthiouracil) is present in the brain, whereas in the liver the predominating enzyme is type I (the rapid enzyme). Further along the synaptogenesis period (day 14-17), 5' deiodination virtually disappears in the brain, the hepatic type I enzyme switches to the slow autoconsume enzyme (type II), and 5 MA-III levels increase significantly in both organs. Finally, on days 18-20 (perinatal period) the 5' pathway reaches the highest levels observed throughout the study in both tissues. Associated to this increase, liver enzymatic activity returns to type I. During this period, 5 MA-III is reduced by 40% in the brain and disappears from the liver. Together, these data strengthen the notion of a protective mechanism against brain overexposure to T3 during synaptogenesis and suggest that the protective mechanism also involves the regulation of extraneural deiodinases.

Published

1993

19. Adrenal gland 5'deiodinase activity (AG-5'd). Kinetic characterization and fractional turnover rate (FTr)

Author

Brenda Anguiano, Maricela Luna, and Carlos Valverde-R

Subjects

HEPES, medicine.medical_specialty, biology, Adrenal gland, Chemistry, Endocrinology, Diabetes and Metabolism, Deiodinase, Half-life, Cycloheximide, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Internal medicine, Thyronine, medicine, Microsome, biology.protein, Euthyroid

Abstract

We determined the kinetic parameters as well as the fractional turnover rate (FTr) and half-life (t(1/2)) of rat adrenal gland 5'deiodinase activity (AG-5'D). Adrenal glands from male euthyroid or surgically thyroidectomized (Tx) Wistar rats were homogenized (HEPES, 10MM: ; pH 7.5; sucrose, 0.25M: ; EDTA 1MM: ) and centrifuged at 10,000g for 15 min at 4°C. The resulting crude microsomal supernatants were used for ail measurements of 5'D activity. Using rT(3) (2-500NM: ) the true Km and the Vmax values were of 20.2NM: and 289 fmol of I(-) release/mg protein/h. With T(4) as substrate these values were 5.8NM: and 622 fmol/h/mg protein. Protein inhibitor (cycloheximide 6 mg/100 g wt) administration allowed to determine an FTr of 0.68 h(-1) and a t(1/2) of 1.01 h. Results demonstrate that the greatest 5'D activity in the rat adrenal gland corresponds to isotype II, because the reaction is GTG and PTU-resistant (70-80%), accepts T(4) as a far better substrate than rT(3) (17-fold) and the former thyronine has a 50-90% inhibitory concentration in the 4-100NM: range. Furthermore, rats thyroidectomized for 5 and 15 days showed a conspicuous increase in cerebral cortex and adrenal 5'D-II activity. These characteristics as well as the rapid FTr and short †(1/2) are shared by type II 5'D present in rat pineal, pituitary and brain.

Published

2010

20. Molecular cloning and characterization of a type 3 iodothyronine deiodinase in the pine snake Pituophis deppei

Author

Carlos Valverde-R, Aurea Orozco, and Patricia Kurczyn Villalobos

Subjects

Deiodinase, Molecular Sequence Data, Radioimmunoassay, Reptilian Proteins, Molecular cloning, Iodide Peroxidase, law.invention, Endocrinology, law, biology.animal, Complementary DNA, Animals, Amino Acid Sequence, Cloning, chemistry.chemical_classification, biology, Base Sequence, Vertebrate, Snakes, Amino acid, chemistry, Biochemistry, Iodothyronine deiodinase, biology.protein, Recombinant DNA, Animal Science and Zoology

Abstract

The three distinct but related isotypes of the iodothyronine deiodinase family: D1, D2, and D3, have been amply studied in vertebrate homeotherms and to a lesser extent in ectotherms, particularly in reptiles. Here, we report the molecular and kinetic characteristics of both the native and the recombinant hepatic D3 from the pine snake Pituophis deppei (PdD3). The complete PdD3 cDNA (1680 bp) encodes a protein of 287 amino acids (aa), which is the longest type 3 deiodinase so far cloned. PdD3 shares 78% identity with chicken and 71% with its other orthologs. Interestingly, the hinge domain in D3s, including PdD3, is rich in proline. This structural feature is shared with D1s, the other inner-ring deiodinases, and deserves further study. The kinetic characteristics of both native and recombinant PdD3 were similar to those reported for D3 in other vertebrates. True K(m) values for T(3) IRD were 9 and 11 nM for native and recombinant PdD3, respectively. Both exhibited a requirement for a high concentration of cofactor (40 mM DTT), insensitivity to inhibition by PTU (2 mM), and bisubstrate, sequential-type reaction kinetics. In summary, the present data demonstrate that the liver of the adult pine snake P. deppei expresses D3. Furthermore, this is the first report of the cloning and expression of a reptilian D3 cDNA. The finding of hepatic D3 expression in the adult pine snake P. deppei is consistent with results in adult piscine species in which the dietary T(3) content seems to regulate liver deiodinase expression. Thus, our present results support the proposal that hepatic D3 in adult vertebrates plays a sentinel role in avoiding an inappropriate overload of exogenous T(3) secondary to feeding in those species that devour the whole prey.

Published

2009

21. Neuroendocrine Regulation of Adrenal 5′-Monodeiodination during Acute Cold Exposure in the Rat. I. Effects of Hypophysectomy

Author

Carmen Aceves, Adela Ramirez Del Angel, Maricela Luna, Luz Navarro, Gerardo Perera, Brenda Anguiano, and Carlos Valverde-R

Subjects

Male, Hypothalamo-Hypophyseal System, medicine.medical_specialty, Pituitary gland, Hypophysectomy, Epinephrine, medicine.medical_treatment, Deiodinase, Pituitary-Adrenal System, Iodide Peroxidase, Norepinephrine, chemistry.chemical_compound, Endocrinology, Reference Values, Corticosterone, Internal medicine, Adrenal Glands, medicine, Animals, biology, Adrenal gland, Rats, Inbred Strains, Rats, Cold Temperature, Thyroxine, medicine.anatomical_structure, chemistry, Adrenal Medulla, Propylthiouracil, Hypothalamus, Adrenal Cortex, biology.protein, Triiodothyronine, medicine.drug

Abstract

Circulating levels of T4, T3, corticosterone, noradrenaline, and adrenaline, as well as 5'-monodeiodinase activity (5'-MA) were measured in control and hypophysectomized rats acutely exposed to cold environment (15-120 min, 4 C). In addition to the well known activation of the sympathoadrenomedullary system and the hypothalamic-pituitary-adrenal and-thyroid axes, cold exposure was followed by a rapid and sustained increase of 5'-MA in the hypothalamus, and a byphasic course of activation in the adrenal gland in control rats. The adrenal rapid activation (30 min) corresponded to the medulla and the slower activation (120 min) to the cortex. Both, the basal adrenal 5'-MA and the response to cold in adrenal and hypothalamus were 2-fold higher in hypophysectomized rats compared to control. The time course of enzyme activation in these structures suggests that: 1) organ-specific increases in 5'-MA may be associated to a simultaneous rise in their metabolic and/or functional activity, 2) the triggering mechanisms involves an immediate sympathetic signal activating the hypothalamic-adrenal medulla response and a pituitary signal eliciting a slower adrenocortical response, and 3) the compensatory sympathetic hyperactivity after panhypopituitarism contribute to enhance both the adrenal enzyme basal activity and the hypothalamic and adrenal hyperresponse to cold stress.

Published

1991

22. 3,5-Diiodothyronine in vivo maintains euthyroidal expression of type 2 iodothyronine deiodinase, growth hormone, and thyroid hormone receptor beta1 in the killifish

Author

Carlos Valverde-R, Carlota Garcı́a-G, Jose Nuñez, Aurea Orozco, and Lucia N López-Bojorquez

Subjects

Male, medicine.medical_specialty, Physiology, Diiodothyronines, Deiodinase, Thyroid Gland, DIO2, Biology, Response Elements, Hyperthyroidism, Iodide Peroxidase, Gene Expression Regulation, Enzymologic, Hypothyroidism, In vivo, Physiology (medical), Internal medicine, Fundulidae, medicine, Animals, Killifish, RNA, Messenger, chemistry.chemical_classification, Thyroid hormone receptor, Triiodothyronine, Thyroid Hormone Receptors beta, biology.organism_classification, Up-Regulation, Enzyme, Endocrinology, chemistry, Liver, Iodothyronine deiodinase, Growth Hormone, biology.protein

Abstract

Until recently, 3,5-diiodothyronine (3,5-T2) has been considered an inactive by-product of triiodothyronine (T3) deiodination. However, studies from several laboratories have shown that 3,5-T2has specific, nongenomic effects on mitochondrial oxidative capacity and respiration rate that are distinct from those due to T3. Nevertheless, little is known about the putative genomic effects of 3,5-T2. We have previously shown that hyperthyroidism induced by supraphysiological doses of 3,5-T2inhibits hepatic iodothyronine deiodinase type 2 (D2) activity and lowers mRNA levels in the killifish in the same manner as T3and T4, suggesting a pretranslational effect of 3,5-T2(Garcia-G C, Jeziorski MC, Valverde-R C, Orozco A. Gen Comp Endocrinol 135: 201–209, 2004). The question remains as to whether 3,5-T2would have effects under conditions similar to those that are physiological for T3. To this end, intact killifish were rendered hypothyroid by administering methimazole. Groups of hypothyroid animals simultaneously received 30 nM of either T3, reverse T3, or 3,5-T2. Under these conditions, we expected that, if it were bioactive, 3,5-T2would mimic T3and thus reverse the compensatory upregulation of D2 and tyroid receptor β1 and downregulation of growth hormone that characterize hypothyroidism. Our results demonstrate that 3,5-T2is indeed bioactive, reversing both hepatic D2 and growth hormone responses during a hypothyroidal state. Furthermore, we observed that 3,5-T2and T3recruit two distinct populations of transcription factors to typical palindromic and DR4 thyroid hormone response elements. Taken together, these results add further evidence to support the notion that 3,5-T2is a bioactive iodothyronine.

Published

2007

23. Salinity Modifies Hepatic Outer-Ring Deiodinating Activity in Fundulus heteroclitus

Author

Aurea Orozco, R. Carlos Valverde-R, and Paul J. Linser

Subjects

Salinity, History and Philosophy of Science, biology, Chemistry, General Neuroscience, Biophysics, biology.organism_classification, Ring (chemistry), General Biochemistry, Genetics and Molecular Biology, Fundulus

Published

1998

24. Thyroid hormone deiodination in fish

Author

Aurea Orozco and Carlos Valverde-R

Subjects

medicine.medical_specialty, Osmosis, Thyroid Hormones, DNA, Complementary, Endocrinology, Diabetes and Metabolism, Iodide Peroxidase, Open Reading Frames, Endocrinology, Species Specificity, Internal medicine, biology.animal, medicine, Animals, RNA, Messenger, biology, Thyroid, Fishes, Vertebrate, Kinetics, Liver metabolism, medicine.anatomical_structure, Liver, Propylthiouracil, %22">Fish , Hormone, medicine.drug

Abstract

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.

Published

2005

25. Comparative kinetic characterization of rat thyroid iodotyrosine dehalogenase and iodothyronine deiodinase type 1

Author

Aurea Orozco, Carlos Valverde-R, Patricia Kurczyn Villalobos, and JC Solis-S

Subjects

Male, medicine.medical_specialty, Hydrolases, Endocrinology, Diabetes and Metabolism, Thyroid Gland, chemistry.chemical_element, DIO2, Iodine, Iodide Peroxidase, Cofactor, Iodine Radioisotopes, Rats, Sprague-Dawley, Endocrinology, Internal medicine, medicine, Animals, Rats, Wistar, music, chemistry.chemical_classification, music.instrument, biology, Thyroid, Rats, Enzyme Activation, Enzyme, medicine.anatomical_structure, Biochemistry, chemistry, Iodotyrosine dehalogenase, Iodothyronine deiodinase, biology.protein, Iodotyrosine deiodinase, Female, Oxidation-Reduction, NADP

Abstract

The initial characterization of a thyroid iodotyrosine dehalogenase (tDh), which deiodinates mono-iodotyrosine and di-iodotyrosine, was made almost 50 years ago, but little is known about its catalytic and kinetic properties. A distinct group of dehalogenases, the so-called iodothyronine deiodinases (IDs), that specifically remove iodine atoms from iodothyronines were subsequently discovered and have been extensively characterized. Iodothyronine deiodinase type 1 (ID1) is highly expressed in the rat thyroid gland, but the co-expression in this tissue of the two different dehalogenating enzymes has not yet been clearly defined. This work compares and contrasts the kinetic properties of tDh and ID1 in the rat thyroid gland. Differential affinities for substrates, cofactors and inhibitors distinguish the two activities, and a reaction mechanism for tDh is proposed. The results reported here support the view that the rat thyroid gland has a distinctive set of dehalogenases specialized in iodine metabolism.

Published

2004

26. Halometabolites and Cellular Dehalogenase Systems: An Evolutionary Perspective

Author

Aurea Orozco, Arturo Becerra, Carlos Valverde-R, Patricia Kurczyn Villalobos, J. Carlos Solis-S, and T. Michael C. Jeziorski

Subjects

inorganic chemicals, Halogen metabolism, Biochemistry, biology, Evolutionary biology, Abiogenesis, biology.animal, Three-domain system, Cellular Regulation, Vertebrate, Context (language use), Dehalogenase

Abstract

We review the role of iodothyronine deiodinases (IDs) in the evolution of vertebrate thyroidal systems within the larger context of biological metabolism of halogens. Since the beginning of life, the ubiquity of organohalogens in the biosphere has provided a major selective pressure for the evolution and conservation of cellular mechanisms specialized in halogen metabolism. Among naturally available halogens, iodine emerged as a critical component of unique developmental and metabolic messengers. Metabolism of iodinated compounds occurs in the three major domains of life, and invertebrate deuterostomes possess several biochemical traits and molecular homologs of vertebrate thyroidal systems, including ancestral homologs of IDs identified in urochordates. The finely tuned cellular regulation of iodometabolite uptake and disposal is a remarkable event in evolution and might have been decisive for the explosive diversification of ontogenetic strategies in vertebrates.

Published

2004

27. Kinetic characterization of outer-ring deiodinase activity (ORD) in the liver, gill and retina of the killifish Fundulus heteroclitus

Author

Paul J. Linser, Aurea Orozco, and Carlos Valverde-R

Subjects

Gills, endocrine system, medicine.medical_specialty, animal structures, Physiology, Deiodinase, Biochemistry, Iodide Peroxidase, Cofactor, Retina, Substrate Specificity, Internal medicine, medicine, Animals, Killifish, Molecular Biology, chemistry.chemical_classification, biology, Killifishes, Thyroid, biology.organism_classification, Molecular biology, Fundulus, Rats, Enzyme Activation, Trout, Kinetics, medicine.anatomical_structure, Endocrinology, Enzyme, chemistry, Liver, Organ Specificity, biology.protein

Abstract

Conversion of T4 to T3 is the first step in TH action and deiodinases are the major determinants of TH tissue availability and disposal. We here report the kinetic characterization of the outer-ring deiodinating (ORD) enzymes in the liver, gill and retina of sea water-adapted killifish, by using both rT3 and T4 as substrates. In liver, by using rT3, we detected a high Km (84 nM) and a low Km (1.3 nM) component with kinetic characteristics similar to mammalian deiodinases DI and DII. In contrast, T4-ORD only generated a low Km (0.5 nM) component. As judged by its Vmax (920 fmol 125I/mg per h) this DII enzyme is very abundant, approximately five and 20 times higher than that found in trout liver and hypothyroid rat, respectively. Kinetic analysis in killifish gill showed only one enzymatic component, with a high rT3 Km (430 nM) and a relatively low Vmax (4.3 pmol 125I/mg per h). Our results in killifish retina show the expression of a T4-low Km (0.6 nM) deiodinase with high cofactor requirements akin to the mammalian DII. The Vmax value for this enzyme is 182 fmol 125I/mg per h, five times lower than the one found in killifish liver, but comparable to that in hypothyroid rat pituitary. The biochemical similarities between fish and mammalian deiodinases could reflect their high conservation during vertebrate evolution and thus their importance in the regulation of thyroid hormone action.

Published

2000

28. Circadian rhythm of type II 5'deiodinase activity in the rat hypothalamic-pituitary-adrenal axis

Author

Carlos Valverde-R, Luz Navarro, Maricela Luna, G. Guzmán, and S. Sanchez de la Pena

Subjects

medicine.medical_specialty, biology, Adrenal gland, Endocrinology, Diabetes and Metabolism, Deiodinase, Endogeny, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Hypothalamus, Corticosterone, Internal medicine, Darkness, medicine, biology.protein, Circadian rhythm, Hypothalamic–pituitary–adrenal axis

Abstract

Type II 5′ deiodinase (5′D-II) activity was assessed in the hypothalamus (HP), pituitary (PIT), and adrenal gland (AG) of adult male rats after two different photoperiodic regimes: (1) cyclic light-dark conditions (LD, 12∶12) or (2) 4 days in continuous darkness (DD). Under cyclic LD conditions HP, PIT and AG 5′D-11 activity showed a significant circadian rhythm (P

Published

1994

29. Mammary 5'deiodinase (5'D) during the breeding cycle of the rat: indirect evidence that 5'D type I is specific to the alveolar epithelium

Author

Carlos Valverde-R, Irene Ramirez-C, Claudia Rodón Fonte, Oscar Pineda-C, Lucia Lopez-B, Sonya Wilson, Raul Mancilla, and Carmen Aceves

Subjects

Estrous cycle, medicine.medical_specialty, biology, Endocrinology, Diabetes and Metabolism, Period (gene), Alveolar Epithelium, Deiodinase, Mammary gland, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Lactation, Internal medicine, Thyronine, medicine, biology.protein, Gestation

Abstract

The present study analyses the activity of 5′deiodinases type I and II in mammary gland during the breeding and estrous cycle of the rat, and includes indirect evidence that 5′D-I is present only in the alveolar epithelium. Data show that the mammary gland exhibits 5′D-II activity throughout the developmental period and its activity varies along the allometric growth of the gland. 5′D-I is detected during the differentiation stages of the alveolar epithelium (puberty, late pregnancy) and its activity rises significantly (10-fold) 24 h after delivery. Data also show that 5′D-I activity is not present in the fat pads of the gland. These findings suggest that during its differentiation and functional stages, the mammary gland requires an elevated and compartmentalized production of T3.

Published

1994

30. Homeorhesis during early lactation. Euthyroid sick-like syndrome in lactating cows

Author

C. Romero, C. Valverde-R., C. Aceves, and A. Ruiz-J.

Subjects

medicine.medical_specialty, Triiodothyronine, Reverse, Endocrinology, Diabetes and Metabolism, Radioimmunoassay, Biology, chemistry.chemical_compound, Endocrinology, Animal science, Pregnancy, Internal medicine, Lactation, medicine, Animals, Euthyroid, Dairy cattle, Triiodothyronine, Homeorhesis, General Medicine, medicine.disease, Adaptation, Physiological, Reverse triiodothyronine, Thyroxine, medicine.anatomical_structure, chemistry, Cattle, Female, Seasons, Energy Metabolism, Purebred

Abstract

Serum levels of thyroxine (T4), triiodothyronine (T3) and reverse T3 (rT3) were studied in dry, early (first trimester) and middle (second trimester) lactating purebred Holstein cows. The study encompassed three different seasons: autumn, winter and spring. Under comfortable weather conditions (temperature 22°C; relative humidity, 40%) or moderately hot (28°C; 60%), January and October, respectively, cows in early lactation exhibited significantly lower levels of T4 and T3, and higher values of rT3 than dry or middle lactating animals. In contrast, during May, when environmental temperature increased (34°C; 40%), a clear-cut shift in T3/rT3ratio occurred, and animals in early lactation exhibited the highest T3 and the lowest rT3 concentrations. These findings suggest that in dairy cattle, peripheral thyroid hormone metabolism plays a major role in regulating the homeorhetic responses involved in the maintenance of high priority functions.

Published

1985

31. Circulating Thyronines and Peripheral Monodeiodination in Lactating Rats*

Author

Carlos Valverde-R and Carmen Aceves

Subjects

medicine.medical_specialty, Time Factors, Triiodothyronine, Reverse, Deiodinase, Iodide Peroxidase, chemistry.chemical_compound, Mammary Glands, Animal, Endocrinology, Pregnancy, Lactation, Internal medicine, medicine, Animals, Endocrine system, Weaning, Triiodothyronine, biology, Rats, Inbred Strains, Radioimmunoassay, medicine.disease, Rats, Thyroxine, medicine.anatomical_structure, Liver, chemistry, Thyronine, biology.protein, Female, Iodine, Euthyroid sick syndrome

Abstract

The well known metabolic and endocrine adaptive responses accompanying lactation include a change in circulating thyronines that resembles the so-called euthyroid sick syndrome. To analyze the role played by tissue monodeiodination in this state, circulating levels of thyronines as well as hepatic and mammary 5'-monodeiodinative activity (5'MA) were assessed during lactation in rats. Results show that the serum iodothyronine changes that accompany lactation are associated with a significant decrease in hepatic 5'MA and a simultaneous increase in mammary 5'MA. These changes begin within the first postpartum day, are proportional to lactation intensity (litter size), and disappear 48 h after either precocious (1st postpartum day) or natural (21st postpartum day) weaning. These data demonstrate that the compartmentalized change in energy expenditure characteristic of lactation is accompanied by organ-specific and opposite adjustments in hepatic and mammary monodeiodinative pathways.

Published

1989

32. Enzymatic Synthesis of Prolactin-Releasing Factor (PRF) by Rat Hypothalamic Incubates and by Extracts of Rat Hypothalamic Tissue: Evidence for 'PRF Synthetase'

Author

Mary Ann Mitnick, Seymour Reichlin, and Carlos Valverde-R

Subjects

Male, medicine.medical_specialty, Hypothalamus, Biology, Cell Fractionation, General Biochemistry, Genetics and Molecular Biology, Cofactor, chemistry.chemical_compound, Adenosine Triphosphate, Internal medicine, medicine, Protein biosynthesis, Animals, Amino Acids, chemistry.chemical_classification, Tissue Extracts, Pituitary Hormone-Releasing Hormones, digestive system diseases, Prolactin, Rats, Amino acid, Endocrinology, chemistry, Biochemistry, Puromycin, biology.protein, Biological Assay, Cell fractionation, Adenosine triphosphate

Abstract

SummaryProlactin-releasing factor (PRF), activity of rat hypothalamic fragments was increased after incubation in Krebs–Ringer bicarbonate buffer, an effect observed even when puromycin in a concentration sufficient to block new protein synthesis was added. In the presence of a mixture of twenty naturally occurring amino acids, ATP and MG2+, a dialyzed ribosome-free extract of rat hypothalamic tissue showed an increased amount of PRF activity as compared with extracts incubated in the absence of cofactors and amino acids. These observations suggest that PRF is formed by a mechanism not involving new protein synthesis. Since PRF is formed by soluble hypothalamic extracts in the presence of ATP and amino acids, it is proposed that this hypothalamic hypophysiotropic hormone is a polypeptide and is biosynthesized by a “PRF Synthetase.”

Published

1973

33. Type I, 5'-Monodeiodinase Activity in the Lactating Mammary Gland*

Author

Carmen Aceves and Carlos Valverde-R

Subjects

Thyroid Hormones, medicine.medical_specialty, Pregnancy animal, Thyroxine deiodinase, Mammary gland, Biology, Iodide Peroxidase, Substrate Specificity, Mammary Glands, Animal, Endocrinology, Pregnancy, Reference Values, Internal medicine, Lactation, medicine, Animals, chemistry.chemical_classification, Rats, Inbred Strains, Enzyme assay, Rats, Highly sensitive, Kinetics, Enzyme, medicine.anatomical_structure, chemistry, Propylthiouracil, biology.protein, Pregnancy, Animal, Female, medicine.drug

Abstract

Mammary homogenates from lactating, weaned, pregnant, and nonpregnant rats were analyzed for 5'-monodeiodinase activity (5'-MA). Only lactating glands exhibited significant enzyme activity. Competitive analysis showed that mammary 5'-MA is not inhibited by high (10 microM) concentrations of T4 or T3, but is highly sensitive to prophythiouracil (5 mM). Kinetic parameters demonstrate an acompetitive bisubstrate enzymatic mechanism known as the ping-pong type. The Km and maximum velocity for rT3 were 0.40 microM and 1.42 nmol/mg.min, respectively. These results provide the first evidence that 5'-MA is present in the lactating mammary gland and suggest that this enzymatic activity corresponds to type I enzyme.

Published

1989

34. Failure of reserpine to block ether-induced release of prolactin: physiological evidence that stress induced prolactin release is not caused by acute inhibition of PIF secretion

Author

Carlos Valverde-R, Seymour Reichlin, and Vincent Chieffo

Subjects

Male, endocrine system, medicine.medical_specialty, Reserpine, Swine, Hypothalamus, Radioimmunoassay, Ether, Biology, General Biochemistry, Genetics and Molecular Biology, Prolactin cell, chemistry.chemical_compound, Stress, Physiological, Internal medicine, Iodine Isotopes, Monoaminergic, medicine, Animals, Secretion, General Pharmacology, Toxicology and Pharmaceutics, Tissue Extracts, General Medicine, Prolactin, Rats, Ethyl Ethers, Endocrinology, Freeze Drying, chemistry, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Plasma prolactin levels in the rat are elevated by reserpine treatment. This effect has generally been attributed to the inhibition of the monoaminergic component of regulation of secretion of prolactin inhibiting factor (PIF). In this study we report that ether stress which produces prolactin release in normal rats was equally effective in stimulating prolactin release in reserpine treated animals whose initial baseline prolactin levels were elevated. These results indicate that the ether stress induced release of prolactin is not due to inhibition of the secretion of PIF, and are compatible with the view that a prolactin releasing substance mediates this acute secretory response.

Published

1973

35. Mitogenic effects of thyroxine and TRH on thyrotrophs and somatotrophs of the anterior pituitary gland in thyroidectomized rats

Author

Carlos Valverde-R and Andrés Quintanar-Stephano

Subjects

Male, endocrine system, Pituitary gland, medicine.medical_specialty, Somatotropic cell, Endocrinology, Diabetes and Metabolism, Thyrotropin, Biology, Endocrinology, Anterior pituitary, Pituitary Gland, Anterior, Thyrotropic cell, Internal medicine, medicine, Animals, Euthyroid, Rats, Wistar, Thyrotropin-Releasing Hormone, Dose-Response Relationship, Drug, Thyroid, Drug Synergism, Rats, Thyroxine, Dose–response relationship, medicine.anatomical_structure, Growth Hormone, Thyroidectomy, Mitogens, hormones, hormone substitutes, and hormone antagonists, Hormone

Abstract

The question of whether thyroxine (T4) and TRH have a mitogenic effect on pituitary thyrotrophs and somatotrophs in thyroidectomized rats was investigated. Mitoses were counted in hematoxylin–eosin-stained or periodic acid–Schiff–hematoxylin-stained pituitary slides or immunostained for TSH or GH using male rats thyroidectomized for 5 months. Ten days before they were killed groups of rats were injected with different doses of T4 (0·5, 3 or 10 μg i.m. every second day for 10 days), TRH alone (100 ng s.c. three times a day for 10 days), or T4 plus TRH (same doses as above). Mitoses (stopped with colchicine) were counted in 1 mm2 areas at a magnification of × 1000. In thyroidectomized rats, mitoses were not significantly increased and treatment with TRH or 0·5 μg T4 alone in thyroidectomized rats did not affect mitotic counts. In thyroidectomized rats treated with higher doses of T4, mitoses were increased in a dose-dependent fashion. Simultaneous administration of TRH and T4 had a significant synergistic effect on pituitary mitoses in a T4 dose-dependent manner. The treatments also had differential effects on the relative percentages of cellular types in mitosis. Thus, 60% somatotrophs and 12·5% thyrotrophs were found in the euthyroid group. In thyroidectomized and thyroidectomized plus TRH groups, no somatotrophs in mitosis were seen, while thyrotrophs were 28·5% and 33·3% respectively. In thyroidectomized rats treated with low doses of T4, somatotrophs and thyrotrophs in mitosis increased to 38·4% and 80% respectively and, with simultaneous administration of a low dose of T4 plus TRH, although less effective than T4 alone, mitosis increased in somatotrophs and thyrotrophs to 11·1% and 54·5% respectively. A high dose of T4 alone did not increase the mitotic figures in somatotrophs (38·8%), while it diminished the percentage of thyrotrophs to 25%. The administration of high doses of T4 plus TRH had an opposite effect on the mitotic figures of somatotrophs and thyrotrophs and thus the percentage of somatotrophs increased to 50% while thyrotrophs decreased to 5·5%. Ten days of treatment with T4 were insufficient to reverse the histology to euthyroidism. It can be concluded that in long-standing hypothyroidism: (1) thyroid hormone replacement elicits a dose-dependent and differential proliferative response on pituitary thyrotrophs and somatotrophs, (2) TRH is devoid of mitogenic effects when administered alone and (3) the proliferative response of somatotrophs to T4 is enhanced by its co-administration with TRH, suggesting a permissive and/or synergistic effect of the thyroid hormone and TRH. Journal of Endocrinology (1997) 154, 149–153

36. Mitotic counts in rat adenohypophysial thyrotrophs and somatotrophs: Effects of short-term thyroidectomy, thyroxine, and thyrotropin-releasing hormone

Author

Andrés Quintanar-Stephano, Kalman Kovacs, and Carlos Valverde-R

Subjects

endocrine system, medicine.medical_specialty, endocrine system diseases, Somatotropic cell, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, FIFTEEN-DAY, Thyroidectomy, Thyrotropin-releasing hormone, General Medicine, Biology, Pathology and Forensic Medicine, Endocrinology, Thyrotropic cell, Internal medicine, medicine, Euthyroid, Mitosis, hormones, hormone substitutes, and hormone antagonists, Hormone

Abstract

The question of whether thyroxine (T(4)) and thyrotropin-releasing hormone (TRH) affect mitoses in pituitary thyrotrophs (Tt) and somatotrophs (St) of hypothyroid rats was investigated. Fifteen day thyroidectomized (Tx) rats were used. Groups of Tx animals received T(4) or TRH or both. Except 6 and 24 h TRH groups, the animals were sacrificed 12 h after injections. Unoperated euthyroid rats served as controls. In Tx group adenohypophysial mitoses were significantly increased. T(4) diminished mitoses in Tx rats. Mitotic counts were decreased in 6 and 24 h Tx groups, but increased in 12 h TRH group. TRH plus T(4) in Tx animals had a synergistic effect on adenohypophysial mitoses. In unoperated controls few mitoses were observed in Tt and more mitoses in St. In Tx rats more mitoses were seen in Tt than in St. T(4) alone failed to reduce mitoses in Tt but increased them in St. We concluded that T(4) affects Tt and St replication. In normal rats mitoses occur mainly in St. In Tx rats mitotic activity increased in Tt. TRH plus T(4) have a synergistic mitogenic effect on St. T(4) but not TRH affects St replication. It appears that the presence of T(4) is necessary for St multiplication.