Negative correlation between thyroperoxidase and dual oxidase H2O2-generating activities in thyroid nodular lesions.

Iodine incorporation into thyroglobulin is dependent on the activities of both thyroperoxidase (TPO) and thyroid dual oxidase 2 (DuOx2). Although TPO expression is decreased in some thyroid nodular lesions, DuOx1 and 2 mRNA expressions are maintained, but DuOx H2O2-generating activity has never been evaluated in such tumors. Our goal was to determine DuOx activity in hypofunctioning lesions of the thyroid. We evaluated H2O2 generation by DuOx in 12 paranodular to cold nodule samples, 17 non-toxic multinodular goiters (MNG; 33 samples), 3 papillary carcinomas (PC; 4 samples), 3 follicular carcinomas (FC; 4 samples), and 10 follicular adenomas. DuOx activity was detected in all paranodular tissues (121+/-23 nmol H2O2/h per mg protein), but was undetectable (<1 nmol H2O2 generated) in all PC, two out of four FC samples and seven out of ten adenomas. In 11 MNG at least two different areas of the goiter have been evaluated, and in 5 of these goiters one of the samples had DuOx activity below the limit of detection. The coefficient of variation in MNG samples ranged from 11.3 to 57.2%. Interestingly, in all the adenomas studied, TPO activity (486+/-142 U/g protein, n=8) was well within the range found in paranodular tissues (414+/-116 U/g protein, n=3). We found a significant negative correlation between DuOx and TPO activities, suggesting that these enzymes are regulated in opposite directions, at least in thyroid tumors.

Effect of iodine or iopanoic acid on thyroid Ca2+/NADPH-dependent H2O2-generating activity and thyroperoxidase in toxic diffuse goiters.

OBJECTIVE: The aim of the present study was to compare the effects of iopanoic acid (IOP) or a saturated solution of potassium iodide (SSKI) administration to patients with toxic diffuse goiters (TDG). DESIGN: Patients with TDG are treated with thionamides and high doses of iodine preoperatively. In this study, two types of preoperative drug regimens were used: propylthiouracil or methimazole plus SSKI for 10-15 days (n=8) or IOP for 7 days (n=6). METHODS: Serum thyroid hormones (total and free thyroxine (T(4)), total tri-iodothyronine (T(3)) and reverse T(3) (rT(3)), were evaluated after 7 days of either SSKI or IOP treatment, and after 10-15 days of SSKI administration. During thyroidectomy, samples of thyroid gland were obtained to evaluate thyroperoxidase and thyroid H(2)O(2)-generating activities. RESULTS: Serum total T(3) was significantly decreased after 7 days of either treatment, and serum rT(3) was significantly increased in IOP-treated patients. Serum total and free T(4) were unaffected by 7 days of IOP treatment, but decreased after 7 days of SSKI treatment, although significantly diminished levels were only reached after a further 3-8 days of SSKI administration. During both drug regimens, serum TSH remained low (SSKI: 0.159+/-0.122; IOP: 0.400+/-0.109 microU/ml). Thyroperoxidase activity was significantly lower in thyroid samples from patients treated with SSKI for 10-15 days than in the thyroid glands from IOP-treated patients. However, thyroid H(2)O(2) generation was inhibited in samples from patients treated with either IOP or SSKI. CONCLUSIONS: We show herein that IOP treatment can be effective in the management of hyperthyroidism and that this drug inhibits thyroid NADPH oxidase activity, just as previously described for SSKI, probably due to its iodine content.

Sistema enzimático gerador de peróxido de hidrogênio: NADPH oxidase na tireóide humana / Enzimatic system generator of hydrogen peroxide: NADPH oxidase in human thyroid

No presente estudo avaliamos a atividade geradora de peróxido de hidrogênio (H 2 O 2 ) em frações particuladas de tireóides suínas e humanas. Inicialmente, analisamos as propriedades bioquímicas da NADPH-oxidase - enzima geradora de H 2 O 2 - localizada na membrana apical da célula tireóidea suína. Nossos resultados demonstram que a atividade geradora de H 2 O 2 na tireóide suína ocorre, principalmente, na fração de membrana apical tireóidea (P 3.000g). Entretanto, no P 3.000g a enzima NADPH-oxidase é apenas parcialmente cálcio-dependente, ao contrário do que acontece em frações purificadas de membrana tireóidea suína, nas quais a enzima é completamente dependente de cálcio, conforme estudos anteriores. Nossos resultados confirmam os previamente descritos para a NADPH oxidase tireóidea suína. Em tecidos tireóideos humanos, a geração de H 2 O 2 ocorreu, tanto na fração microsomal (P 100.000g) quanto na fração de membrana apical (P 3.000g). Nossos dados revelam ainda que a NADPH-oxidase humana é completamente cálcio-dependente, ativada por altas concentrações de fosfato e parece ser tão ativa na glândula humana quanto na suína. Além disto, a enzima humana é dependente de adenina-flavina-dinucleotídeo (FAD) no meio de reação, ou seja, parece ser uma flavoproteína, assim como a proteína suína.