UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytokine mRNA production in the thyroid tissues of patients with various thyroid diseases was analysed by in situ hybridization. In addition, infiltrating leukocytes were characterized by immunohistologic studies using the alkaline phosphatase anti-alkaline phosphatase (APAAP) staining technique. The following clinical material was investigated: two cases of Graves' disease, one with high and the other with a low amount of infiltrating leukocytes as well as two cases of non-toxic goitre also showing considerable quantities of infiltrating cells. The hybridization was performed on tissue sections with antisense probes for interferon-gamma (IFN-gamma), IFN-alpha E, IFN-beta, interleukin-6 (IL-6) and IL-1 beta. A small number of individual cells were found to express high levels of mRNA for IFN-gamma, IL-1 beta and measurable amounts of IL-6 throughout the tissue sections. However, IFN-alpha E or IFN-beta were not detected. Cytokine expressing cells were noted in the tissue of one patient with Graves' disease and in two cases with non-toxic goitre. In these samples a high amount of infiltrating leukocytes (CD45+) was detected, especially CD3+, CD8+, CD4+ and CD45RA+ T cells, in addition to B cells and macrophages. In one case an unusually large amount of T cell receptor gamma/delta+ (TcR gamma/delta+) cells was found. However, one sample of thyroid tissue derived from a patient with Graves' disease was poorly infiltrated and showed few cells expressing cytokines. In conclusion, using thyroid tissue as an example, our data suggest that the application of in situ hybridization with antisense RNA permits the study of cytokine production in tissues of both autoimmune and non-autoimmune origin.
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PMID:In situ hybridization of the mRNA for interferon-gamma, interferon-alpha E, interferon-beta, interleukin-1 beta and interleukin-6 and characterization of infiltrating cells in thyroid tissues. 153 76

We have established previously that human thyroid epithelial cells (TEC) from patients with autoimmune thyroiditis are able to synthesize cytokines, such as interleukin-1 (IL-1) and interleukin-6 (IL-6). This paper examines TEC in sections from autoimmune thyroiditis for the in vivo production of tumour necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) using the combined techniques of in situ hybridization and immunohistochemistry. Thyroid tissue from patients with Graves' disease, Hashimoto's disease and non-toxic goitre was examined and both mRNA and the protein of TNF-alpha were detected in TEC on frozen sections. Representative figures of only Graves' samples are illustrated in this paper. In contrast, using the same methods, IFN-gamma was detected only in the infiltrating cells and not in TEC of thyroid tissue from the patients.
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PMID:Detection of in vivo production of tumour necrosis factor-alpha by human thyroid epithelial cells. 157 93

Human endocrine thyroid epithelial cells have been described to produce cytokines in vitro. In order to determine whether they do so in vivo during thyroiditis, parallel studies on mRNA expression with a non-radioactive in situ hybridization technique and immunohistochemical detection for the protein were performed on frozen sections of thyroid samples from autoimmune thyroiditis (Graves' disease and Hashimoto's thyroiditis), non-toxic goitre and normal thyroid tissue. cDNA probes were sulphonated and their hybridization with mRNA was detected with a sulphonyl-specific monoclonal antibody. This signal was amplified and visualized with the alkaline phosphatase-anti-alkaline phosphatase (APAAP) system. The protein products were detected with immuno-purified rabbit F(ab')2 antibody fragments recognizing recombinant human cytokines, visualized by the immunoperoxidase technique. Each sample was studied at the two levels. Both interleukin-6 mRNA and protein were found in the endocrine cells. There was no obvious difference between autoimmune thyroiditis and non-toxic goitre. However, normal thyroid epithelial cells produced less interleukin-6. Interleukin-1 alpha mRNA and its protein were found in epithelial cells from Hashimoto's thyroiditis samples, but not in the others, except one Graves' disease sample, in which only mRNA was detected. Interleukin-1 beta was not detected in these cells, its mRNA was only found in one of the Graves' disease samples. These cytokines were also detected in some infiltrating cells.
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PMID:Detection of interleukin-6 and interleukin-1 production in human thyroid epithelial cells by non-radioactive in situ hybridization and immunohistochemical methods. 199 63

The intrathyroidal production of Interferon gamma, tumour necrosis factor alpha and beta, Interleukin-1 alpha and beta, Interleukin-6, platelet-derived growth factor A and of transforming growth factor-beta was analysed in patients with autoimmune and non-autoimmune thyroid disease. Cytokines were assessed indirectly by slot blot mRNA analysis in fresh tissue samples (unpurified cells, infiltrating mononuclear cells and thyroid follicular cells), in thyroid follicular cells in primary culture, as well as in thyroid-derived T-cell clones. The production of Interleukin-1 alpha and beta, Interleukin-6 and transforming growth factor beta was additionally measured by bioassay. Cytokine production by thyroid-infiltrating mononuclear cells generally did not differ between autoimmune and non-autoimmune samples, the whole panel of all cytokines being found in freshly purified cells as well as in thyroid-derived T-cell clones from patient with Graves' disease, as well as with multinodular non-toxic goitre. Thyroid follicular cells produced Interleukin-1 alpha, Interleukin-6 and transforming growth factor beta. Interleukin-1 and Interleukin-6 production did not differ between thyroid follicular cells from autoimmune and non-autoimmune thyroids. Transforming growth factor beta was, however, lower in non-toxic goitre than in Graves' disease and in normal thyroid tissue, but could be increased by exposure of the cells to micromolar concentrations of iodide. This seemed of special interest, as transforming growth factor beta proved to inhibit thyroid follicular cell growth in response to known growth stimuli, such as insulin-like growth factor I or epidermal growth factor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intrathyroidal cytokine production in thyroid disease. 267 71

Cytokine production was studied in thyroid tissue from patients with Graves' disease, Hashimoto's thyroiditis and non-toxic goitre. The expression of interferon gamma, tumour necrosis factor alpha and beta, interleukin-1 alpha and beta, interleukin-6 and platelet-derived growth factor A chain was assessed by slot-blot analysis of the respective mRNA in freshly isolated tissue samples. All seven cytokines were detected in patients of all groups. Although the respective mRNA levels were, in general, higher in thyroid autoimmune disorders, this appeared to relate to the degree of the lymphocytic infiltration of the thyroid gland at the time of surgery. Purified thyroid follicular cells expressed high levels of interleukin-1 alpha and interleukin-6 mRNA and when established in primary culture, purified thyroid follicular cells from Graves' disease as well as non-toxic goitre produced interleukin-1 alpha and interleukin-6 bioactivity spontaneously. In the case of interleukin-1 this could be further augmented by addition of lipopolysaccharide to the thyroid follicular cell cultures. These results demonstrate that the lymphocytic infiltrate found in autoimmune and non-autoimmune thyroid disorders is associated with cytokine production. Additionally we have shown that intrathyroidal cytokine production is not restricted to thyroid-infiltrating mononuclear cells, but may also involve thyroid follicular cells both in vivo and in vitro. The cytokines produced by thyroid follicular cells may have an important role in stimulating autoantigen specific T cells in vivo as both interleukin-1 and interleukin-6 facilitate T cell activation.
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PMID:Analysis of intrathyroidal cytokine production in thyroid autoimmune disease: thyroid follicular cells produce interleukin-1 alpha and interleukin-6. 268 Jan 82

Increased serum interleukin-6 (IL-6) concentrations have recently been reported in patients with subacute thyroiditis and in some patients with amiodarone-induced thyrotoxicosis, possibly because of cytokine release from damaged thyroid cells. In this study, serum IL-6 levels were determined by an enzyme-linked immunosorbent assay method in 18 patients given percutaneous intranodular ethanol injection (PIEI) for autonomously functioning thyroid nodule, 12 patients treated with radioactive iodine (RAI) for Graves' disease or toxic adenoma, and 23 patients submitted to fine needle aspiration (FNA) for nonfunctioning thyroid nodules. Baseline serum IL-6 levels did not differ in the 3 groups. PIEI was followed by a dramatic increase in median IL-6 values from 42 fmol/L (range, < 25 to 84) to 381 fmol/L (range, 61-9870; P < 0.0001); the peak value was attained as little as 10 min after injection. RAI was also followed by a significant (P < 0.0001) increase in IL-6 from 52 fmol/L (range, < 25 to 84) to 189 fmol/L (range, 119-1417 fmol/L); the increase after RAI was lower than that after PIEI (P < 0.05), and the peak value was attained later (after 24 h). FNA was also followed by a slight, but significant, increase in the serum IL-6 concentration from 21 fmol/L (range, < 25 to 103) to 109 fmol/L (range, < 25 to 360; P < 0.0001 vs. baseline). The increase in IL-6 was correlated with the size of nodule or goiter (P < 0.0001), but not with the amount of injected ethanol or the dose of radioiodine delivered to the thyroid. Serum thyroglobulin also increased after PIEI, RAI, or FNA, but no significant correlation could be demonstrated with the increase in IL-6. The results of this study support the concept that in the absence of nonthyroidal illnesses, which are often associated with increased serum concentrations of the cytokine, IL-6 can be regarded as a useful marker of thyroid-destructive processes.
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PMID:Interleukin-6: a marker of thyroid-destructive processes? 796 38

Amiodarone, an iodine-rich cardiac drug, may induce thyrotoxicosis (AIT), which can occur in patients with preexisting thyroid abnormalities and in subjects with apparently normal thyroid glands. The pathogenesis of AIT is often due to iodine-induced excessive thyroid hormone synthesis, especially in patients with underlying thyroid disease. In some instances, however, AIT may be related to a destructive process due to amiodarone-induced thyroiditis, resulting in thyroid cell damage and thyroid hormone release into the circulation. Another thyroid inflammatory process, subacute thyroiditis, has been recently reported to be associated with markedly increased serum interleukin-6 (IL-6) levels. To investigate the significance of serum IL-6 levels in AIT, we evaluated in a cross-sectional study the following subjects: 27 AIT patients, 15 with no apparent thyroid abnormalities (AIT-) and 12 with nodular goiter and/or thyroid autoimmune disease (AIT+); 14 euthyroid patients receiving chronic amiodarone therapy; 10 patients with amiodarone-induced hypothyroidism; 56 patients with spontaneous hyperthyroidism due to Graves' disease (n = 35) or toxic adenoma/nodular goiter (n = 21); 20 subjects with nontoxic goiter; and 50 healthy controls. Serum free thyroid hormone concentrations did not differ in patients with amiodarone-induced or spontaneous hyperthyroidism. Mean (+/- SE) serum IL-6 values were as follows: AIT-, 573.5 +/- 78.7 fmol/L (range, 149.4-1145.1); AIT+, 152.7 +/- 46.3 fmol/L (range, < 25-505.6); euthyroid patients receiving chronic amiodarone therapy, 51.4 +/- 10.0 fmol/L (range, < 25-122.5); amiodarone-induced hypothyroidism, 43.8 +/- 8.4 fmol/L (range, < 25-84.3); Graves' disease, 108.2 +/- 18.2 fmol/L (range, < 25-250); toxic adenoma/nodular goiter, 97.6 +/- 10.3 fmol/L (range, < 25-168.9); nontoxic goiter, 47.3 +/- 7.1 fmol/L (range, < 25-106.6); and controls, 37.8 +/- 6.2 fmol/L (range, < 25-99.4). Serum IL-6 values in AIT- patients were markedly higher (P < 0.0001) than those in all other groups. Values in AIT+, although slightly higher, did not significantly differ from those in patients with spontaneous hyperthyroidism. AIT- patients had low 24-h thyroidal radioiodine uptake (RAIU), whereas AIT+ had inappropriately low normal to high (9-58%) RAIU values in the presence of excess iodine. The presence of markedly elevated serum IL-6 concentrations and low thyroidal RAIU values in patients with AIT without underlying thyroid disease suggests the presence of amiodarone-induced thyroiditis as the etiology of thyrotoxicosis. Treatment of 2 such patients with prednisone was associated with a dramatic reduction and prompt normalization of IL-6 and thyroid hormone values.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Serum interleukin-6 in amiodarone-induced thyrotoxicosis. 810 31

Amiodarone-induced thyrotoxicosis (AIT) occurs in both abnormal (type I) and apparently normal (type II) thyroid glands due to iodine-induced excessive thyroid hormone synthesis in patients with nodular goiter or latent Graves' disease (type I) or to a thyroid-destructive process caused by amiodarone or iodine (type II). Twenty-four consecutive AIT patients, 12 type I and 12 type II, were evaluated prospectively. Sex, age, severity of thyrotoxicosis, and cumulative amiodarone dose were similar. Type II patients had higher serum interleukin-6 (IL-6; median, 440 vs. 173 fmol/L; P < 0.001), but lower serum thyroglobulin levels. Several weeks of thionamide therapy in eight type II or prolonged glucocorticoid administration in two type I patients had previously failed to control hyperthyroidism. Type II patients were given prednisone (initial dose, 40 mg/day) for 3 months and achieved normal free T3 and IL-6 after an average of 8 and 6 days, respectively. Exacerbation of thyrotoxicosis with increased serum IL-6 values, observed in 4 patients while tapering steroid, was promptly corrected by increasing it. Type I patients, given methimazole (30 mg/day) and potassium perchlorate (1 g/day), achieved normal free T3 and IL-6 concentrations after an average of 4 weeks. Exacerbation of thyrotoxicosis with markedly increased IL-6 was controlled by prednisone in 3 of 4 cases. Distinction of different forms of AIT is essential for its successful management. Type II AIT should be treated with glucocorticoids; type I AIT should be treated with methimazole and potassium perchlorate. Exacerbation of thyrotoxicosis, which may occur in both forms and is probably related to destructive processes, should be controlled by the addition/increase in glucocorticoids.
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PMID:Treatment of amiodarone-induced thyrotoxicosis, a difficult challenge: results of a prospective study. 876 54

During goitre surgery (25 patients) and after major abdominal surgery (52 patients), we studied the plasma levels of endotoxin, interleukin-6 (IL-6), C reactive protein (CRP), and the so called myeloid-related proteins (MRP), MRP8, MRP14, and the heterocomplex of both single proteins, MRP8/MRP14 in three intervals: pre-, intra-, and postoperative. We observed that CRP levels began to increase on the first postoperative day, reaching a maximum on day 2 (median levels of 185 mg/L after major surgery and 77 mg/L after goitre surgery). IL-6 levels peaked at the end of the operation, remaining elevated for 6 h following abdominal surgery (299 pg/mL) and peaked on day 1 after goitre surgery (63 pg/mL). An increase in MRP8/MRP14 levels began toward the end of abdominal surgery, and maximum levels were recorded until 5 days after the operation (5,695 micrograms/L). Plasma levels were significantly elevated 2 and 6 h after minor surgery (3,619 micrograms/L), while no changes were observed in the plasma levels of MRP8 and MRP14. Evidence of significant endotoxemia was found after the induction of anesthesia in the abdominal surgery group (.13 endotoxin units (EU)/mL) and after skin incision (.07 EU/mL) in the thyroid surgery group. The observed time sequence, starting with the release of bacterial products at an early stage, followed by the secondary stimulation of factors inherent to the acute phase led us to conclude that certain bacterial compounds, probably deriving from the gastrointestinal tract, trigger the postoperative acute phase reaction and are responsible for the activation of monocytes/macrophages and granulocytes.
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PMID:Time-scale of interleukin-6, myeloid related proteins (MRP), C reactive protein (CRP), and endotoxin plasma levels during the postoperative acute phase reaction. 918 42

Amiodarone-induced thyrotoxicosis (AIT) occurs both in abnormal thyroid glands (nodular goiter, latent Graves' disease) (type I AIT) or in apparently normal thyroid glands (type II AIT). Differentiation of the two forms is crucial, because type I AIT responds well to methimazole and potassium perchlorate combined treatment, whereas type II AIT is effectively managed by glucocorticoids. Differential diagnosis is often difficult, although thyroid radioactive iodine uptake is usually low-to-normal in type I and low-suppressed in type II, and serum interleukin-6 levels are normal/slightly elevated in type I, markedly elevated in type II. Color flow Doppler sonography (CFDS) is a technique that shows intrathyroidal blood flow and provides real-time information on thyroid morphology and hyperfunction. To investigate the usefulness of CFDS in differentiating the two types of AIT, 27 consecutive AIT patients, 11 type I and 16 type II, were evaluated by CFDS before starting antithyroid treatment. Gender, age, severity of thyrotoxicosis, and cumulative amiodarone dose were similar in the two groups. All type II AIT patients had a CFDS pattern 0 (ie, absent vascularity), in agreement with the pathogenesis of the disease, due to thyroid damage. Likewise, nine patients with subacute thyroiditis, another destructive process of the thyroid gland, also had a CFDS pattern 0. Eleven patients with type I AIT had a CFDS pattern ranging from pattern I (presence of parenchymal blood flow with patchy uneven distribution) (7 patients, 64%) to pattern II (ie, mild increase of color flow Doppler signal with patchy distribution) (1 patient, 9%) and pattern III (markedly increased color flow Doppler signal with diffuse homogeneous distribution)(3 patients, 27%), similar to that found in patients with untreated Graves' disease patients, thus indicating a hyper-functioning gland. Control subjects and euthyroid patients under long-term amiodarone treatment had absent thyroid hypervascularity and a CFDS pattern 0. These findings demonstrate that CFDS distinguishes type I and II AIT. Because of its rapidity and noninvasive features, CFDS represents a valuable tool for a quick differentiation between the two types of AIT. This can avoid any delay in initiating the appropriate treatment for a rapid control of thyrotoxicosis in patients whose tachyarrhythmias or other cardiac disorders make thyroid hormone excess extremely deleterious.
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PMID:Color flow Doppler sonography rapidly differentiates type I and type II amiodarone-induced thyrotoxicosis. 929 40

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