Cloning and characterization of a novel isoform of iodotyrosine dehalogenase 1 (DEHAL1) DEHAL1C from human thyroid: comparisons with DEHAL1 and DEHAL1B.

The human iodotyrosine dehalogenase 1 (DEHAL1) gene is composed of six exons. Two isoforms (DEHAL1 and DEHAL1B) have been published in GenBank, both of which have a nitroreductase domain and arise from differential splicing in exon 5. We recently showed that the DEHAL1 isoform is a transmembrane protein that efficiently catalyzes the NADPH-dependent deiodination of mono (L-MIT) and diiodotyrosine (L-DIT) in human embryonic kidney-293 (HEK293) cells.

Dual oxidase-2 has an intrinsic Ca2+-dependent H2O2-generating activity.

Duox2 (and probably Duox1) is a glycoflavoprotein involved in thyroid hormone biosynthesis, as the thyroid H2O2 generator functionally associated with Tpo (thyroperoxidase). So far, because of the impairment of maturation and of the targeting process, transfecting DUOX into nonthyroid cell lines has not led to the expression of a functional H2O2-generating system at the plasma membrane. For the first time, we investigated the H2O2-generating activity in the particulate fractions from DUOX2- and DUOX1-transfected HEK293 and Chinese hamster ovary cells.

CCAAT/enhancer-binding protein-homologous protein expression and transcriptional activity are regulated by 3',5'-cyclic adenosine monophosphate in thyroid cells.

The cAMP pathway activates p38-MAPKs in the FRTL-5 rat thyroid cell line, contributing to the increased expression of the Na+/I- symporter (NIS) mRNA. This study investigates the cAMP-dependent expression and transcriptional activity of the p38-MAPK substrate CCAAT/enhancer-binding protein-homologous protein (CHOP). CHOP is expressed in the rat thyroid gland and in confluent PCCL3 and FRTL-5 cells.

Thyroid hormone regulates the expression of NeuroD/BHF1 during the development of rat cerebellum.

During the postnatal development of the rat cerebellum, there is an extensive proliferation of granular neurones in the external layer, followed by their migration and differentiation in the internal layer. These processes are impaired by neonatal hypothyroidism and can be restored by thyroid hormone therapy. They are also abolished in transgenic mice in which the neuroD gene is not expressed.

Thyroid oxidase (THOX2) gene expression in the rat thyroid cell line FRTL-5.

A cDNA encoding an NADPH oxidase flavoprotein was isolated from the rat thyroid gland. The predicted 1517-residue polypeptide was 82.5% identical to the human THOX2/DUOX2 and 74% similar to THOX1/DUOX1.

Purification, molecular cloning, and functional expression of the human nicodinamide-adenine dinucleotide phosphate-regulated thyroid hormone-binding protein.

The kidney and several other thyroid hormone-responsive tissues contain a NADP-regulated thyroid hormone (TH)-binding protein (THBP), with an apparent molecular mass of 36 kDa on SDS-PAGE, responsible for most of the intracellular high-affinity T3 and T4 binding. THBP was purified to homogeneity from human kidney cytosol and used to generate proteolytic peptides. Microsequencing of four peptides revealed identity to amino acid sequences deduced from a human cDNA homolog to a cDNA encoding kangaroo mu-crystallin.

Cytotoxicity of bilirubin for human fibroblasts and rat astrocytes in culture. Effect of the ratio of bilirubin to serum albumin.

The sensitivity of rat brain astrocytes and human fibroblasts in culture to unconjugated bilirubin was investigated. Medium containing 6 mumol/1 bilirubin and increasing concentrations of human serum albumin giving ratios of 0.5-1.

High affinity thyroid hormone-binding protein in human kidney: kinetic characterization and identification by photoaffinity labeling.

The binding of thyroid hormones and its regulation of NADPH and NADP+ were studied in human kidney cytosol, and a 38-kDa polypeptide (p38) was identified by photoaffinity labeling of cytosol with underivatized [125I]T3, SDS-PAGE, and autoradiography. The cytosolic thyroid hormone binding and p38 photolabeling were strongly activated by NADPH (maximum at 10(-7) M), whereas other nucleotides were less effective or ineffective. NADP+ did not activate T3 binding and p38 photolabeling, provided it was protected from conversion to NADPH by the addition of an exogenous oxidizing enzymatic system (oxidized glutathione plus glutathione reductase).

Characterization of the thyroid hormone transport system of cerebrocortical rat neurons in primary culture.

The uptake of 3',3,5-triiodo-L-thyronine (T3) and L-thyroxine (T4) by primary cultures derived from rat brain hemispheres was studied under initial velocity conditions, at 25 degrees C. Uptake of both hormones was carrier mediated and obeyed simple Michaelis-Menten kinetics. The Km of T3 uptake was very similar to that of T4, and did not vary significantly from day 1 to 4 in culture (310-400 nM).

Relationship between the thyroid hormone transport system and the Na(+)-H+ exchanger in cultured rat brain astrocytes.

The entry of T3 and T4 into rat cultured astrocytes is mediated by a sterospecific saturable transport system. This study examines the effect of inhibiting the Na(+)-H+ exchanger and intracellular acidification on the initial velocity of [125I]T3 and [125I]T4 uptake. The resting intracellular pH (pHi) was approximately 7.

Identification by photoaffinity labelling of a pyridine nucleotide-dependent tri-iodothyronine-binding protein in the cytosol of cultured astroglial cells.

High-affinity 3,3',5-tri-iodo-L-thyronine (T3) binding (Kd approximately 0.3 nM) to the cytosol of cultured rat astroglial cells was strongly activated in the presence of pyridine nucleotides. A 35 kDa pyridine nucleotide-dependent T3-binding polypeptide (35K-TBP) was photoaffinity labelled using underivatized [125I]T3 in the presence of pyridine nucleotides and the free-radical scavenger dithiothreitol.

Competitive inhibition of thyroid hormone uptake into cultured rat brain astrocytes by bilirubin and bilirubin conjugates.

Thyroid hormone (TH) metabolism is altered in cases of unconjugated hyperbilirubinemia. These effects might involve inhibition of TH uptake by their target cells. Astrocytes, which are in close contact with the membranes of brain capillaries, might be the first brain cells to come into contact with bilirubin.

Triiodothyronine is a high-affinity inhibitor of amino acid transport system L1 in cultured astrocytes.

The relationship between the transport of thyroid hormones and that of amino acids was examined by measuring the uptake of amino acids that are characteristic substrates of systems L, A, and N, and the effect of 3,3',5-triiodo-L-thyronine (T3) on this uptake, in cultured astrocytes. Tryptophan and leucine uptakes were rapid, Na(+)-independent, and efficiently inhibited by T3 (half-inhibition at approximately 2 microM). Two Na(+)-independent L-like systems (L1 and L2), common to leucine and aromatic amino acids, were characterized kinetically.

Triiodothyronine binding sites in the rat erythrocyte membrane: involvement in triiodothyronine transport and relation to the tryptophan transport System T.

The binding of L-triiodothyronine (T3) to rat erythrocyte membranes (ghosts and peripheral protein-depleted vesicles) was studied under equilibrium conditions. Ghosts contained high-affinity T3 binding sites whose dissociation constant (21 nM) was similar to the equilibrium-exchange Michaelis constant of T3 transport measured in ghosts. Each ghost contained about 8.

Thyroid hormone concentrative uptake in rat erythrocytes. Involvement of the tryptophan transport system T in countertransport of tri-iodothyronine and aromatic amino acids.

The kinetic properties of transport system T, which is specific for uptake of aromatic amino acids, were studied in rat erythrocytes in the presence of leucine in order to block the neutral amino acid transport system L. Since the triiodothyronine (T3) transport system and system T are closely related, the trans effect of T3 and tryptophan on [3H]tryptophan transport and the trans effects of aromatic amino acids on [125I]T3 transport were studied. Equilibrium-exchange, zero-trans and infinite-trans studies of [3H]tryptophan transport indicated that system T in rat erythrocytes is a simple carrier with exchanging properties resulting in trans-acceleration of influx and trans-inhibition of efflux when tryptophan was present at the trans side of the membrane.

Transport of thyroid hormones by human erythrocytes: kinetic characterization in adults and newborns.

The uptake of [125I]T3 and [125I]T4 by human erythrocytes was studied. The erythrocytes were obtained from adult subjects (28-41 yr old) and suspended in a protein-free medium. The half-times of equilibration for both T3 and T4 were 6 min.

Evidence for a close link between the thyroid hormone transport system and the aromatic amino acid transport system T in erythrocytes.

The transport of [125I]triiodothyronine ([125I]T3) and [3H]tryptophan ([3H]Trp) by washed rat erythrocytes was studied at 25 degrees C in the presence of leucine in order to block the neutral amino acid transport system L. Eadie-Hofstee plots of initial velocity data gave the following values of Km (micromolar) and Vmax (nanomole/min/10(8) cells): 0.122 +/- 0.

Erythrocyte-associated triiodothyronine in the rat: a source of hormone for target cells.

The accumulation of T3 by rat erythrocytes and its transfer to cultured rat hepatocytes were investigated. The amount of erythrocyte-associated T3 in whole rat blood was determined at 37 degrees C. The ratio of erythrocyte-associated T3 to plasma total T3 was 0.

The triiodothyronine carrier of rat erythrocytes: asymmetry and mechanisms of trans-inhibition.

The kinetic properties of the carrier-mediated transport of 3,5,3'-triiodo-L-thyronine (T3) in washed rat erythrocytes were investigated (1) by studying the effects of trans unlabelled T3 on influx and efflux of labelled substrate and (2) by testing some predictions of the theory of Lieb and Stein [1974) Biochim. Biophys. Acta 373, 165-177).

Carrier-mediated transport of thyroid hormones into rat glial cells in primary culture.

The uptake of 3,3',5-[3'-125I]triiodo-L-thyronine ([125I]L-T3) and of L-[3',5'-125I]thyroxine ([125I]L-T4) by cultured rat glial cells was studied under initial velocity (Vi) conditions. Uptake of both hormones was carrier mediated and obeyed simple Michaelis-Menten kinetics. The following respective values of Km (microM) and Vmax (fmol/min/microgram of DNA) were obtained at 25 degrees C: 0.

Characterization of triiodothyronine transport and accumulation in rat erythrocytes.

The transport of L-T3 was studied in washed rat erythrocytes. L-T3 uptake was temperature sensitive: the initial velocity of uptake at low substrate concentration was 40 times higher at 37 C than at 0C whereas, at equilibrium, the ratio of cell-associated to extracellular L-T3 was about 7 times lower at 37 C than at 0 C. When [125I]L-T3-loaded erythrocytes were diluted into a serum albumin-containing medium, the efflux of L-T3 proceeded at a rate similar to that of influx.

Induction of type II 5'-deiodinase activity by cyclic adenosine 3', 5'-monophosphate in cultured rat astroglial cells.

Cultured astroglial cells were found to contain a type II 5'-deiodinase (5'D) activity which was increased by 10(-3) M (Bu)2cAMP but not by 2 X 10(-3) M n-butyrate. 8-Bromo-cAMP (8-Br-cAMP) (10(-3) M) also increased this enzyme activity. Cycloheximide (2 micrograms/ml) inhibited the 8-Br-cAMP effect on 5'D activity.

Thyroid hormone metabolism in neuron-enriched primary cultures of fetal rat brain cells.

The metabolism of thyroxine (T4) by cultures of embryonic-rat brain cells grown in a chemically defined medium was studied. Cells in these cultures were predominantly neurons, characterized by the developmental increase of the binding of [3H]flunitrazepam to the high-affinity (0.67 nM) benzodiazepine neuronal receptors.

Characterization of the thyroid hormone transport system of isolated hepatocytes.

Transport of 3,5-[3'-125I]triiodo-L-thyronine ([125I]T3) was studied in isolated rat liver hepatocytes. T3 transport was temperature-sensitive, the initial velocity of uptake, at low substrate concentration, was 60 times higher at 25 degrees C than at 0 degrees C. The activation energy of cellular uptake (26 kcal/mol) was different from that of binding to cytosolic proteins (6 kcal/mol), indicating that the latter was not the rate-limiting step.

Thyroid hormone metabolism by glial cells in primary culture.

The metabolism of thyroxine (T4) and triiodothyronine (T3) in cultured glial cells was studied in situ. Cultures were prepared from fetal rat brain and grown for the last 4 days in a chemically defined medium (CDM). They contained astrocytes and oligodendrocytes as shown by the enzyme markers, glutamine synthetase and 2',3'-cyclic nucleotide phosphohydrolase.