The capacity and characteristics of liver nuclear receptors for T3 have been compared in normal rats, thyroidectomized rats, and thyroidectomized rats treated with different doses of T3. Receptor capacity was unchanged, with the exception of a decrease of total nuclear receptors in rats treated with 15 microgram T3/day, which is believed due to lack of complete dissociation of the endogenously bound hormone during incubation in vitro. During incubation of the isolated nuclei in 0.32 M sucrose plus 1 mM MgCl2 plus 20 mM Tris-Cl buffer, pH 7.85, about 50% of the nuclear receptors were released to the medium and no effect of T3 treatment on the amount released was found. The affinity of the receptors free in solution was 50% higher than that of receptors retained in the nuclei. Receptors from normal and thyroidectomized rats were studied by ultracentrifugation through sucrose gradients. No difference in sedimentation coefficient was found between the groups of rats, whether the receptors were filled with the labeled hormone before or after centrifugation and separation of the gradient fractions. Occupied and unoccupied receptor capacity was estimated by incubation of receptor preparations at 20 and 0 C for 2 h. Observed capacity at 20 C represents unoccupied plus approximately 80% of occupied sites, while observed capacity at 0 C represents unoccupied plus 10% of occupied site. Binding of receptors to the chromatin was studied by incubating nuclear extract from normal rats with chromatin and measuring the amount of receptor that was not bound and remained free in the supernatant. Receptor not bound to chromatin was incubated at 0 and 20 C, with a saturating concentration of [125I]T3, to measure occupied and unoccupied sites. Both occupied and unoccupied receptor decrease in the supernatant after incubation with the chromatin when the concentration of chromatin in the incubation medium is increased. No saturation of the chromatin-binding sites was achieved by increasing the concentration of receptor several-fold, and no difference in the binding of occupied and unoccupied receptors to chromatin was observed. These data rule out the possibility that the concentration of receptors in the nucleus is under control of the hormone. Major molecular changes of the receptor that could be induced by T3, such as dissociation into subunits, are also ruled out. Binding studies to the chromatin are not necessarily conclusive, as nonspecific binding may be masking the physiological binding of the receptors to a limited number of acceptor sites.
The bacterial lipopolysaccharide (LPS) is a biological activator that induces expression of multiple genes in several cell types. LPS has been proposed as an etiopathogenic agent in autoimmune diseases. However, whether LPS affects the expression of autoantigens has not been explored. Thyroglobulin (TG) is a key protein in thyroid hormonogenesis and one of the major thyroid autoantigens. This study aimed to analyze the action of LPS on TG gene expression in Fisher rat thyroid cell line FRTL-5 thyroid cells. We demonstrate that LPS increases the TSH-induced TG protein and mRNA level. Evidence that the effect of LPS is exerted at the transcriptional level was obtained by transfecting the minimal TG promoter. The C element of the TG promoter, which contains sequences for paired box domain transcription factor 8 (Pax8) and thyroid transcription factor (TTF)-1 binding, is essential for full TG promoter expression under TSH stimulation. The transcriptional activity of a construct containing five tandem repeats of the C site is increased by LPS, indicating a possible involvement of the C site in the LPS-induced TG gene transcription. We demonstrate that the TG promoter mutated at the Pax8 or TTF-1 binding element in the C site does not respond to LPS. In band shift assays, binding of Pax8 and TTF-1 to the C site is increased by LPS. The Pax8 and TTF-1 mRNA and protein levels are augmented by LPS. The half-lives of TG, Pax8, and TTF-1 are increased in endotoxin-treated cells. Our results reveal the ability of LPS to stimulate the expression of TG, a finding of potential pathophysiological implication.
Nitric oxide (NO) has been proposed as an intracellular signal in the thyroid. The NO effect on function and morphology of bovine thyroid follicles in culture was analyzed by using the NO donors sodium nitroprusside (SNP) and S-nitrosoglutathione (GSNO). Both NO donors induced a concentration-dependent NO release measured by the nitrite accumulation in the culture medium. The SNP (10 to 500 micromol/L) treatment for 24 hours significantly inhibited the uptake, organification and transport of iodide in a concentration-dependent manner. When SNP (50 micromol/L) was withdrawn from the culture medium after 24 hours' incubation, iodide uptake and organification were partially recovered at 24 hours and reached the control value at 48 hours, indicating a reversible effect of SNP. A possible involvement of cyanide in the SNP inhibitory effect was excluded because incubation of follicles with potassium cyanide (KCN) at concentrations estimated to be present in the medium (40 and 80 micromol/L) for 24 hours did not modify iodide uptake and organification. The GSNO (10 to 500 micromol/L) treatment for 24 hours also reduced the iodide uptake, organification and transport in a concentration-dependent manner. A significant inhibition of iodide organification was induced after incubation with 1000 micromol/L of N2, 2'-O-dibutyrylguanosine 3':5'-cyclic monophosphate ([Bu]2cGMP). Morphological evaluation by light microscopy revealed that the incubation with NPS or GSNO (500 micromol/L) produced cellular dispersion with loss of follicular cell aggregates that was evident at 96 hours exposure. Cell viability was not altered by 10-500 micromol/L SNP or GSNO (80% to 85%). We concluded that long-term NO exposure induces functional and morphological modifications compatible with a loss of differentiation in thyroid follicles. These observations further support a role of NO in the regulation of the thyroid function.
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