Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cat thyroid slices were studied to investigate their responsiveness to thyrotropin stimulation of cyclic AMP accumulation. Ovine and bovine thyrotropin, in the presence of 2.5 mM aminophylline, induced a dose-dependent increase in the cyclic AMP content of cat thyroid tissue. Half-maximal stimulation of cyclic AMP accumulation was obtained at a thyrotropin concentration of 1-2 mU/ml. The maximal effect of thyrotropin was observed at 10 mU/ml, and was associated with a mean 77 +/- 19-fold increase in thyroidal cyclic AMP. Preincubation of cat thyroid tissue for 2 h with 50 micron
NaI
resulted in an impairment in the subsequent ability of thyrotropin to enhance cyclic AMP accumulation, without altering the level of cyclic AMP in tissues not exposed to the hormone. Preincubation alone was without effect on thyrotropin stimulation of cyclic AMP, and the inhibitory effect of iodide was prevented by addition of 3 mM methimazole to the preincubation medium. In addition, the time course of thytrotropin stimulation of cyclic AMP accumulation in cat thyroid slices was not significantly altered by the preincubation with excess iodide. These studies provide additional evidence that excess iodide inhibits the
adenylate cyclase
-cyclic AMP system in thyroid tissue.
...
PMID:Iodide induced suppression of thyrotropin-stimulated adenosine 3',5'-monophosphate production in cat thyroid slices. 21 98
In the present report the mechanisms responsible for the expression of the thyroid microsomal autoantigen (M-Ag) were studied in primary cultures of human thyroid cells prepared from Graves' or non-toxic goitres. The indirect immunofluorescence (IFL) technique using human sera positive for anti-microsomal antibody (anti-MAb) was employed to detect M-Ag. Studies were performed to ascertain whether M-Ag recognized by anti-MAb could be identified with thyroid peroxidase (TPO). Preabsorption experiments showed that, similarly to solubilized thyroid microsomes, purified human TPO abolished the binding of anti-MAb to thyrocytes, while no inhibition was obtained with control human tissues. The identity of M-Ag and TPO was also demonstrated using a double layer IFL technique which allowed a simultaneous staining of the antigen(s) recognized by anti-MAb and by a monoclonal anti-TPO antibody. After 5-15 days of TSH withdrawal from the culture medium the M/TPO-Ag disappeared from the surface and the cytoplasm of human thyroid cells. Readdition of TSH (0.1-100 mU/ml) to cells lacking M/TPO-Ag elicited its reappearance within 48-72 h. This effect of TSH was prevented by 10 microM cycloheximide but not by methimazole (0.1-2 mM). Two stimulators of the
adenylate cyclase
-cAMP system, cholera toxin and forskolin, and 8-bromo-cAMP mimicked TSH in inducing M/TPO-Ag. Thyroid stimulating antibody (TSAb) of Graves' disease also reproduced the effect of TSH on M/TPO-Ag reexpression in human thyroid cells. By contrast, epidermal growth factor, oestradiol or
NaI
were ineffective in inducing M/TPO-Ag. The present data indicate that: (i) the expression of M/TPO-AG in human thyroid cells is dependent on TSH stimulation, through pathways which involve cAMP production and protein synthesis, (ii) TSAb reproduces this effect of TSH; (iii) oestradiol and
NaI
have no direct influence on the expression of M/TPO-Ag.
...
PMID:The expression of the microsomal/peroxidase autoantigen in human thyroid cells is thyrotrophin-dependent. 266 Oct 62
hCG stimulates thyroid function, but it has been suggested that it is impurities in commercial hCG preparations or a variant of hCG that are responsible for the thyrotropic activity. In this study, we tested the thyrotropic activity of purified and commercial hCG and compared its action with that of bovine TSH (bTSH) in cultured rat FRTL-5 cells in regard to stimulation of iodide uptake, activation of
adenylate cyclase
, and synthesis of DNA. Iodide uptake was measured after incubation of the cells for 48-72 h with the test hormones, followed by a 40-min incubation with 0.1 microCi Na125I and 10 mumol/L carrier
NaI
; the 125I in the washed cells was counted. Adenylate cyclase was measured after incubation of the cells with the test stimulators for 3 h in hypotonic medium by RIA of cAMP in the medium. DNA synthesis was measured after incubation of the cells with the test substances for 24 h, followed by addition of [3H]thymidine for 3 h and then measuring the incorporation of [3H]thymidine into the cells. Both purified and commercial hCG produced a dose-related increase in iodide uptake. The relative potency of commercial hCG was 0.024 microU bTSH/U hCG and that of purified hCG was 0.042 microU bTSH/U hCG; compared with human TSH, the potency of purified hCG was 0.72 microU/U hCG. hCG caused a dose-related increment of
adenylate cyclase
and [3H]thymidine incorporation. The effect of hCG on iodide uptake and [3H]thymidine incorporation was additive with that of bTSH; hCG was not an antagonist of TSH in these cultured rat thyroid cells. We conclude that hCG has intrinsic thyrotropic activity in FRTL-5 cells in regard to stimulation of iodide uptake, activation of
adenylate cyclase
, and stimulation of DNA synthesis.
...
PMID:Human chorionic gonadotropin stimulates iodide uptake, adenylate cyclase, and deoxyribonucleic acid synthesis in cultured rat thyroid cells. 337 38
Studies were conducted to define more clearly the site in the thyroid
adenylate cyclase
complex at which iodine exerts its inhibitory effect on activation of this enzyme by TSH. Iodine- and TSH-induced desensitization were additive. Dissociation was observed between the rates of recovery from TSH- and iodine-induced desensitization. Cycloheximide (10(-4) M) prevented recovery from the inhibitory effect of iodine on thyroid
adenylate cyclase
activation. Preincubation of freshly isolated dog thyroid follicles in 10(-4) M iodide decreased the subsequent cAMP response to cholera toxin (0.5 micrograms/ml) stimulation. This effect of iodide was prevented by 3 mM methimazole. Thyroid
adenylate cyclase
regulatory protein (Ns) activity was assessed by the ability of detergent extracts of thyroid plasma membranes to reconstitute
adenylate cyclase
responsiveness to isoproterenol in N-deficient S49 cyc- plasma membranes. Thyroid Ns activities were similar in control and iodide-pretreated thyroid cells. The inhibitory effect of iodine on TSH activation of thyroid cAMP generation was additive to that of inhibition via the alpha 2- adrenergic pathway and also additive to inhibition by 2',5'-dideoxyadenosine (an adenosine P-site agonist). Preincubation of freshly dispersed dog thyroid cells in 10(-4) M
NaI
reduced the cAMP response to stimulation by 100 microM forskolin. These data provide evidence that in iodine-induced TSH desensitization in the thyroid; 1) TSH receptor function is normal, 2) the regulatory protein (Ns) in the
adenylate cyclase
stimulatory pathway is functionally unaltered, 3) iodine does not exert its effect via the regulatory protein (Ni) in the pathway that inhibits
adenylate cyclase
activation, 4) iodine does not act via the adenosine P-site inhibitory pathway, 5) the action of iodine is at or near the
adenylate cyclase
catalytic unit, and 6) new protein synthesis is necessary for recovery from iodine desensitization.
...
PMID:Evidence that organic iodine attenuates the adenosine 3',5'-monophosphate response to thyrotropin stimulation in thyroid tissue by an action at or near the adenylate cyclase catalytic unit. 631 25
Previously, we have shown that the iodide was able to inhibit TSH induced thyrocyte proliferation by arresting the cell cycle at G0G1 and G2M, suggesting that the iodide may be exerting its effects through more than the TSH-
adenylate cyclase
-cAMP system. To confirm the effects of iodide on the
adenylate cyclase
(AC) system, forskolin- and dibutyryl-cyclic-AMP (dBcAMP)-stimulated FRTL5 thyroid cells were exposed to inhibitory concentrations of iodide and the resultant effects on the cell cycle were compared to the effects observed with TSH, using flow cytometric DNA analysis. Forskolin stimulated the proliferation of FRTL5 cells in a dose-dependent manner. Cell numbers rose from baseline by 169 +/- 4% to peak at 10 microM forskolin. Interestingly, 100 microM forskolin inhibited cell proliferation, causing cell numbers to fall by approximately 50%. Iodide inhibited forskolin-induced proliferation to baseline levels. However, the pattern of cell cycle perturbation was different to that with TSH-stimulated cells. There were no differences in the proportion of cells in G0G1 between forskolin alone and forskolin +
NaI
, while there was a marked fall in the proportion of cells in S phase, indicating possible partial arrest at G0G1. Furthermore, there was a marked accumulation of cells in G2M over and above that found with TSH +
NaI
, indicating arrest at G2M. dBcAMP maximally stimulated cell numbers to rise from baseline by 125% with 1 mM dBcAMP. Again, higher concentrations of the mitogen had an inhibitory effect on proliferation. The addition of
NaI
inhibited dBcAMP stimulated cell proliferation.
...
PMID:The G2M arrest caused by iodide is unrelated to the effects of iodide at adenylate cyclase. 748 77
Amiodarone (AMD) is a powerful anti-arrhythmic drug used for the treatment of a wide variety of cardiac arrhythmias and its most striking feature is its high iodine content. Thyroid dysfunction is a limiting side-effect of the drug and both AMD-induced hypothyroidism (AIH) and AMD-induced thyrotoxicosis (AIT) are reported. To examine the hypothesis that altered bioavailability of iodine is a contributing event in the pathogenesis of AIH, we compared the effects of AMD and inorganic iodine in vitro on events involved in the process of thyroid autoregulation. FRTL-5 cells and JP26 CHO cells (transfected with the human TSH receptor) were exposed to AMD or
NaI
in the presence of TSH, and cAMP production was measured as an indicator of cellular function. Forskolin and cholera toxin were also used to determine the possible target sites of AMD and iodide. Our results indicated that there was a difference between the effects of AMD versus those of physiological doses of iodide. The inhibitory effects of AMD occurred at lower concentrations of iodide than those seen in the
NaI
-treated cells. The effects of AMD were irreversible indicating a possible persistence of the Wolff-Chaikoff effect due to a constant high intracellular iodide level. The inhibitory effects of AMD (also seen at supraphysiological doses of iodide) were partially overcome by forskolin but not by cholera toxin indicating an effect on TSH receptor interactions with the other signal transduction elements such as G proteins and
adenylate cyclase
. The persistence of the Wolff-Chaikoff effect through loss of autoregulation may be a mechanism of the observed hypothyroidism in some patients taking AMD. The combined effects of the constant release of iodide together with the drug toxicity may be the mechanism for the observed effects.
...
PMID:Amiodarone compared with iodine exhibits a potent and persistent inhibitory effect on TSH-stimulated cAMP production in vitro: a possible mechanism to explain amiodarone-induced hypothyroidism. 1021 20
