Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment of malignant disease with interleukin-2 and lymphokine-activated killer cells activates autoreactive T lymphocytes, stimulates release of cytokines and induces expression of HLA-class II antigens by tumour cells. We studied eight patients with hepatocellular carcinoma treated with a total of 16 courses of recombinant human interleukin-2 and lymphokine-activated killer cells and observed them for features of autoimmune thyroid disease. During the course of treatment there were significant decreases in total serum T4 and T3 and free thyroxine levels, but no change in TSH levels when all patients were analysed as a group. This was due to a number of factors including suppression of thyroid hormone release, haemodilution during interleukin-2 infusion and actual removal of thyroid hormones from the circulation during leukapheresis. Thyroid hormones returned to normal levels during resting period. One patient subsequently developed compensated hypothyroidism (normal total T4, total T3 and free T4 but elevated TSH) and four patients had features of 'sick euthyroid syndrome' (low total T4, total T3 or free T4 but normal TSH). None of the patients studied developed antibodies to thyroglobulin or microsomes. In contrast, no abnormality of thyroid function was seen in any of the nine subjects who received no active treatment. In conclusion, thyroid dysfunction was associated with immunotherapy of malignant disease with interleukin-2 and lymphokine-activated killer cells. This may arise from direct hormonal effects of the cytokines on thyroid hormone production.
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PMID:Thyroid functions in patients treated with interleukin-2 and lymphokine-activated killer cells. 133 2

The nuclear genome is the primary locus of activity for thyroid hormone and dexamethasone; however, one well described secondary effect of treatment with these hormones is increased mitochondrial respiratory activity. To examine the mechanism of the increase in respiration, we have treated a rat hepatoma cell line, HTC cells, with thyroid hormone and dexamethasone and measured their effects on the activity of a respiratory chain enzyme and on mitochondrial (mt) RNA and mtDNA levels. Thyroid hormone, but not dexamethasone, increased cytochrome c oxidase activity in HTC cells; the increase in activity was nearly 2-fold over control values. To determine whether this increased activity was the result of coordinate increases in expression of nuclear and cytoplasmic genes for this enzyme, we measured changes in the levels of messenger RNAs for both nuclear and mitochondrially encoded cytochrome oxidase subunits. Treatment of HTC cells with thyroid hormone and/or dexamethasone resulted in 3- to 4-fold increases in the levels of several RNAs encoded in the mt genome, including subunit II of cytochrome c oxidase. In contrast, this treatment had no effect on the messenger RNA encoding a nuclear subunit of this same enzyme. Neither of these hormones had any effect on cell number or on the level of mtDNA. Dose response and time course of thyroid hormone and dexamethasone administration on mtRNA levels were consistent with these hormones acting through their nuclear hormone receptors. Increased expression of the mt genome by alteration of transcription or RNA stability is a likely candidate for a mechanism by which these hormones can regulate mitochondrial activity.
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PMID:Thyroid hormone and dexamethasone increase the levels of a messenger ribonucleic acid for a mitochondrially encoded subunit but not for a nuclear-encoded subunit of cytochrome c oxidase. 169 99

Thyroid hormone levels were studied in a euthyroid patient with hepatocellular carcinoma. The thyroid gland was normal at autopsy and both antithyroglobulin and antimicrosomal antibodies were undetectable in serum. Serum triiodothyronine (T3) values as measured by different RIA procedures, showed striking discrepancies suggesting the presence of an endogenous T3 binding antibody. The preincubation of the patient's serum with 125I-T3, followed by a precipitation with polyethyleneglycol showed a 74.8% of binding, confirming the presence of an endogenous factor interfering with T3 assays. Agarose electrophoresis of the patient's serum showed that 125I-T3 migrated mainly with the gammaglobulin fraction (60%). When immunoprecipitation tests with different antihuman antiimmunoglobulins were carried out, a positive binding for immunoglobulin G (11.9%), Fab (8.5%) and lambda chain (9.3%) was noted. Scatchard plot analysis showed a binding affinity of 0.77 X 10(9) liter/mol and a binding capacity of 1.02 nmol/liter. These data suggest that the abnormal serum T3 binding was caused by the presence of a T3 antibody which was shown to be an immunoglobulin G specific only for the lambda chain.
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PMID:Antibody binding serum T3 in a patient with hepatocarcinoma. 632 98

As a basis for regulatory studies on the influence of hormones on (anti)coagulant protein production by hepatocytes, we examined the amounts of the plasma proteins antithrombin III (AT III), protein C, protein S, factor II, factor X, fibrinogen, and prealbumin produced by the hepatoma cell line HepG2, into the culture medium, in the absence and presence of insulin, beta-estradiol, dexamethasone and thyroid hormone. Without hormones these cells produced large amounts of fibrinogen (2,452 +/- 501 ng/mg cell protein), AT III (447 +/- 16 ng/mg cell protein) and factor II (464 +/- 31 ng/mg cell protein) and only small amounts of protein C (50 +/- 7 ng/mg cell protein) and factor X (55 +/- 5 ng/mg cell protein). Thyroid hormone had a slight but significant effect on the enrichment in the culture medium of the anticoagulant protein AT III (1.34-fold) but not on protein C (0.96-fold) and protein S (0.91-fold). This hormone also significantly increased the amounts of the coagulant proteins factor II (1.28-fold), factor X (1.45-fold) and fibrinogen (2.17-fold). Insulin had an overall stimulating effect on the amounts of all the proteins that were investigated. Neither dexamethasone nor beta-estradiol administration did substantially change the amounts of these proteins. We conclude that the HepG2 cell is a useful tool to study the hormonal regulation of the production of (anti)coagulant proteins. We studied the overall process of protein production, i.e., the amounts of proteins produced into the culture medium. Detailed studies have to be performed to establish the specific hormonal effects on the underlying processes, e.g., transcription, translation, cellular processing and transport, and secretion.
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PMID:The influence of insulin, beta-estradiol, dexamethasone and thyroid hormone on the secretion of coagulant and anticoagulant proteins by HepG2 cells. 858 7

Thyroid hormone (T(3)) exerts its many biological activities through interaction with specific nuclear receptors (TRs) that function as ligand-dependent transcription factors at genes that contain a thyroid hormone response element (TRE). Mutant TRs have been detected in human hepatocellular carcinoma cell lines and tissue, but their contribution to carcinogenesis has remained unclear. The interaction of four such mutant TRs (J7-TRalpha1, J7-TRbeta1, H-TRalpha1, and L-TRalpha1) with transcriptional coregulators has now been investigated. With the exception of J7-TRalpha1, which in the absence of T(3) exhibited transcriptional silencing activity with a TRE-reporter gene construct in transfected cells, the mutant TRs had little effect (compared with that of wild-type receptors) on transcriptional activity of the reporter gene in the absence or presence of T(3), of the transcriptional corepressors SMRT, NCoR or of the transcriptional coactivator SRC. Electrophoretic mobility-shift assays revealed that, in the presence of T(3), the J7-TRss1 mutant did not interact with SRC, whereas J7-TRalpha1 and H-TRalpha1 exhibited reduced abilities to associate with this coactivator and L-TRalpha1 showed an ability to interact with SRC similar to that of wild-type TRalpha1. The dominant negative activity of the mutant TRs in transfected cells appeared inversely related to the ability of the receptors to interact with SRC. Whereas J7-TRss1, H-TRalpha1, and L-TRalpha1 did not interact with SMRT, and NCoR. J7-TRalpha1 bind to corepressors but failed to dissociate from them in the presence of T(3). These aberrant interactions between the mutant TRs and transcriptional coregulators may contribute to the highly variable clinical characteristics of human hepatocellular carcinoma.
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PMID:Impaired interaction of mutant thyroid hormone receptors associated with human hepatocellular carcinoma with transcriptional coregulators. 1115 36

Carnitine (3-hydroxy-4N-trimethylammoniumbutanoate) is a naturally occurring quaternary amine that is ubiquitous in mammalian tissues (concentrations in the order of mM). Based on limited studies of approximately 40 years ago, carnitine was considered to be a peripheral antagonist of thyroid hormone (TH) action. These interesting observations have not been explored. To study the biologic basis of this effect, we tested the following possibilities in three TH-responsive cell lines: (1) inhibition of TH entry into cells; (2) inhibition of TH entry into the nucleus; (3) inhibition of TH interaction with the isolated nuclei; and (4) facilitated efflux of TH from cells. On a preliminary basis we had verified that these cell lines (human skin fibroblasts, human hepatoma cells HepG2, and mouse neuroblastoma cells NB 41A3) take up 14Ccarnitine; however, there was no 14Ccarnitine uptake into the nuclei. Concentrations of unlabeled carnitine as high as 100 mM did not affect (125I)T3 binding to isolated nuclei or exit of TH from cells, thus excluding possibilities numbered 3 and 4. At 10 mM camitine, (125I)T3 and (125I)T4 whole-cell uptake was inhibited by approximately 20% in fibroblasts and in HepG2, but by approximately 5% in NB 41A3 cells. Inhibition of T3 nuclear uptake was evaluated in HepG2 and NB 41A3 cells. At 10 mM carnitine, inhibition of T3 nuclear uptake was disproportionately higher, namely approximately 25% in neurons and 35% in hepatocytes. At 50 mM carnitine, there was a minimal additional decrease in whole-cell uptake of either hormone but a marked decrease in T3 nuclear uptake. The latter inhibition was approximately 60% in neurons and 70% in hepatocytes. We are aware of no inhibitor of TH uptake that has such a markedly different effect on the nuclear versus whole-cell uptake. Our data are consistent with carnitine being a peripheral antagonist of TH action, and they indicate a site of inhibition at or before the nuclear envelope.
Thyroid 2000 Dec
PMID:Carnitine is a naturally occurring inhibitor of thyroid hormone nuclear uptake. 2758 Sep 51

Proviral tagging has been used in animals as a powerful tool for cancer genetics. We show that a similar approach is possible in patients with hepatocellular carcinoma (HCC) infected by Hepatitis B Virus (HBV), a human pararetrovirus which may act by insertional mutagenesis. In this work, the HBV genome is used as a probe to identify cancer-related genes. By using HBV-Alu-PCR, we obtained 21 HBV/cellular DNA junctions from 18 different patients. In six of 21, we found the HBV DNA integrated into a cellular gene: (1) Sarco/Endoplasmic Reticulum Calcium ATPase1 Gene; (2) Thyroid Hormone Receptor Associated Protein 150 alpha Gene; (3) Human Telomerase Reverse Transcriptase Gene; (4) Minichromosome Maintenance Protein (MCM)-Related Gene; (5) FR7, a new gene expressed in human liver and cancer tissues; and (6) Nuclear Matrix Protein p84 Gene. Seven junctions contained unique cellular sequences. In the remaining eight, the HBV DNA was next to repetitive sequences, five of them of LINE1 type. The cellular genes targeted by HBV are key regulators of cell proliferation and viability. Our results show that studies on HBV-related HCCs allow to identify cellular genes involved in cancer. We therefore propose this approach as a valuable tool for functional cancer genomic studies in humans.
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PMID:Identification of human cancer-related genes by naturally occurring Hepatitis B Virus DNA tagging. 1159 32

In radionuclide therapy with iodine-131 labelled pharmaceuticals, free (131)I may be released and trapped by the thyroid, causing an undesirable radiation burden. To prevent this, stable iodide such as potassium iodide (KI) can be given to saturate the thyroid before (131)I is administered. The guidelines of the European Association of Nuclear Medicine do not, however, recommend special precautions when administering (131)I-lipiodol therapy for hepatocellular carcinoma. Nevertheless, some authors have reported (131)I uptake in the thyroid as a consequence of such therapy. In this study, the influence of prophylactic KI on the thyroid uptake and dose (MIRD dosimetry) was prospectively investigated. (131)I-lipiodol was given as a slow bolus selectively in the proper hepatic artery or hyperselectively in the right and/or left hepatic artery. Patients were prospectively randomised into two groups. One group received KI in a dose of 100 mg per day starting 2 days before (131)I-lipiodol administration and continuing until 2 weeks after therapy (KI group; n=31), while the other group received no KI (non-KI group; n=37). Thyroid uptake was measured scintigraphically as a percentage of administered activity 7 days after (131)I-lipiodol ( n=68 treatments). The absorbed radiation dose to the thyroid was assessed by scintigraphy after 7 and 14 days using a mono-exponential fitting model and MIRD dosimetry ( n=40 treatments). The mean activity of (131)I-lipiodol administered was 1,835 MBq in a volume of 2 ( n=17) or 4 ( n=51) ml. Thyroid uptake was lower in the KI group, being 0.23%+/-0.06% of injected activity ( n=31) compared with 0.42%+/-0.20% in the non-KI group ( n=37); the mean thyroid dose was 5.5+/-1.6 Gy in the KI group ( n=19) versus 11.9+/-5.9 Gy in the non-KI group ( n=21). These differences were statistically significant ( P<0.001). No effect of the amount of added cold lipiodol (4 vs 2 ml total volume) or selectivity of (131)I-lipiodol administration was evident ( P>0.1). (131)I-lipiodol is associated with a generally low thyroid uptake and dose that may be significantly decreased by KI premedication. Given the low cost and the very good tolerance of the KI treatment, we believe the use of KI should be recommended in the majority of the patients.
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PMID:Thyroid uptake and radiation dose after (131)I-lipiodol treatment: is thyroid blocking by potassium iodide necessary? 1227 12

4,4'-Methylenedianiline is used primarily as a chemical intermediate in the closed system production of isocyanates and polyisocyanates. These chemicals are used extensively in the manufacture of rigid polyurethane foams for thermal insulation and in the production of semiflexible polyurethane foams for automobile safety cushioning. The saturated isocyante of 4,4'-methylenedianiline [4,4'-methylene-bis(cyclohexylisocyanate)] is an intermediate in the production of light-stable, high-performance polyurethane coatings. 4,4'-Methylenedianiline is also a curing agent for epoxy resins and urethane elastomers, a dye intermediate, and a corrosion inhibitor. NTP Carcinogenesis studies of 4,4'-methylenedianiline dihydrochloride (98.6% pure) were conducted by administering this chemical in the drinking water of F344/N rats and B6C3F1 mice. Groups of 50 rats and 50 mice of each sex received drinking water containing 150 or 300 ppm 4,4'-methylenedianiline dihydrochloride (dosage expressed as the free base) for 103 weeks. Groups of 50 rats and 50 mice of each sex, given drinking water adjusted with 0.1N HCl to the pH (3.7) of the 300-ppm formulation, served as controls. Survival was comparable among groups except for male mice receiving the high dose of 4,4'-methylenedianiline dihydrochloride; survival in that group was lower (P=0.006) than that in controls. Mean body weight was reduced in high dose female rats and in high dose male and female mice. Water consumption was reduced in a dose-related manner in both sexes of rats. No compound-related clinical effects were observed. Compound-related nonneoplastic lesions of the thyroid in female rats included follicular cysts and hyperplasia. The incidence of thyroid follicular cell hyperplasia was elevated in high dose male and female mice. The incidences of thyroid neoplasms in the high dose groups were elevated compared with those of the control groups for both sexes of both species. Thyroid follicular cell carcinoma was increased in male rats (controls, 0/49; low dose, 0/47; high dose, 7/48, 15%: P</=0.012). Follicular cell adenoma was increased in high dose female rats (0/47; 2/47, 4%; 17/48, 35%: P<0.001), in high dose male mice (0/47; 3/49, 6%; 16/49, 33%: P<0.001), and in high dose female mice (0/50; 1/47, 2%; 13/50, 26%: P<0.001) as compared with controls. In female rats, thyroid C-cell adenoma was also elevated in a dose-related manner (0/47; 3/47, 6%; 6/48, 13%, P</=0.029). Dose-related increases in nonneoplastic lesions were observed for male rats (nonspecific liver dilatation) and for male and female rats (fatty metamorphosis and focal cellular change). Liver degeneration was present in 80% of the low dose and 60% of the high dose male mice but was not found in the controls. Neoplastic nodules of the liver were observed at greater incidences (P</=0.002) for low and high dose male rats as compared with controls (control, 1/50, 2%; low dose, 12/50, 24%, P</=0.002; high dose 25/50, 50%, P<0.001). Hepatocellular adenoma was increased in a dose-related manner in dosed female mice (3/50, 6%; 9/50, 18%; 12/50, 24%, P<0.011). Hepatocellular carcinoma was observed in greater incidence in dosed male mice (10/49, 20%; 33/50, 66%, P<0.001; 29/50, 58%, P<0.001) and in high dose female mice (1/50, 2%; 6/50, 12%; 11/50, 22%, P=0.002). Male rats had a dose related increase in kidney mineralization. Nephropathy was increased in dosed mice of both sexes; renal papillary mineralization was greater in high dose male mice and female mice than in the controls. Other tumors that were elevated in dosed animals included adrenal pheochromocytomas in male mice (control, 2/48, 4%; low dose, 12/49, 24%, P</=0.006; high dose, 14/49, 29%; P</=0.001), alveolar/bronchiolar adenoma in female mice (1/50, 2%; 2/50, 4%; 6/49, 12%, P</=0.05) and malignant lymphomas in female mice (13/50,26%; 28/50, 56%, P=0.002; 29/50, 58%; P=0.001). Uncommon tumors were observed in dosed animals at low incidences but may be important because the historical control incidences are very low; bile duct adenoma in 1/50 high dose male (13/50,26&percnt;; 28/50, 56&percnt;, P=0.002; 29/50, 58&percnt;; P=0.001). Uncommon tumors were observed in dosed animals at low incidences but may be important because the historical control incidences are very low; bile duct adenoma in 1/50 high dose male rats (historical control 3/3,663), transitional-cell papillomas of the urinary bladder in female rats (historical control, 3/3,664, 0.08&percnt;; low dose, 2/50, 4&percnt;; high dose, 1/50, 2&percnt;) and granulosa cell tumors of the ovary in female rats (historical control, 11/3,642, 0.3&percnt;; low dose, 3/50, 6&percnt;; high dose, 2/50, 4&percnt;). Decreases in tumor incidences were observed for leukemia in male rats (control, 12/50, 24&percnt;; low dose, 6/50, 12&percnt;; high dose, 5/50, 10&percnt;, P=0.048) and alveolar or bronchiolar adenomas (combined) in male mice (12/49, 24&percnt;; 9/49, 18&percnt;; 3/49, 6&percnt;, P&le;0.011). Under the conditions of these studies, 4,4'-methylenedianiline dihydrochloride was carcinogenic for F344/N rats and B6C3F1 mice of each sex, causing significantly increased incidences of thyroid follicular cell carcinomas in male rats, thyroid follicular cell adenomas in female rats and in mice of each sex, C-cell adenomas of the thyroid gland in female rats, neoplastic nodules in the liver of male rats, hepatocellular carcinomas in mice of each sex, adenomas of the liver and malignant lymphomas in female mice, and adrenal pheochromocytomas in male mice. Levels of Evidence of Carcinogenicity: Male Rats: Positive Female Rats: Positive Male Mice: Positive Female Mice: Positive
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PMID:NTP Carcinogenesis Studies of 4,4'-Methylenedianiline Dihydrochloride (CAS No. 13552-44-8) in F344/N Rats and B6C3F1 Mice (Drinking Water Studies). 1275 Jul 45

Both in vivo and in primary rat hepatocyte culture, carbohydrate and triiodothyronine (T(3)) rapidly induce transcription of the rat S14 gene. To determine if regulation of this gene by T(3) is similar in human liver cells, we transfected the S14 upstream region into HepG2 cells. We chose this cell line because many others have used this cell line to study the effect of thyroid hormone on hepatic gene expression. We found that changing media glucose concentration did not affect S14 transcription. Furthermore, addition of T(3) to HepG2 cells caused a marked reduction of rat S14 transcription. This paradoxical reduction was dependent on cotransfection of the T(3) receptor. We obtained similar results in the other human hepatoma cell lines, HuH-7 and Hep3B. The paradoxical response was not limited to human cells. We found a similar response in the nonmalignant permanent mouse liver cell line, AML-12. This paradoxical response was specific to the S14 gene because transfection of all the cell lines with a CAT or luciferase reporter driven by a mouse mammary tumor virus promoter containing 1 or 4 copies of a palindromic thyroid hormone response element (TRE) showed marked induction by T(3). Our results show that T(3) abnormally regulates the S14 gene in proliferating liver cell lines of diverse origins. This paradoxical regulation by T(3) is caused by an interaction between T(3) and the thyroid hormone receptor. The factors that lead to this paradoxical response are not active in primary hepatocytes and normal intact liver.
Thyroid 2003 May
PMID:Paradoxical triiodothyronine suppression of S14 transcription in permanent hepatic cell lines. 1285 10


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