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Query: KEGG:D02259 (
NaI
)
1,823
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
(-)-N6-(R-4-Hydroxyphenylisopropyl)adenosine (HPIA) was iodinated with
NaI
and trace 125I. Mono- and diiodinated reaction products and the starting material were separated by high pressure liquid chromatography and the structures of the reaction products were verified by NMR. (-)-N6-(R-Phenylisopropyl)adenosine (PIA), IHPIA, and I2HPIA decreased rat atrial contractility with ED50 values of 24, 28, and 33 nM, respectively. The contractile effects of these compounds were competitively blocked by theophylline (KI = 7.9 microM), but were not affected by adenosine deaminase. IHPIA also inhibited (-)isoproterenol-stimulated cyclic
AMP
accumulation in adipocytes with an ED50 (10 nM) and to an extent (83%) nearly identical to PIA. [125I]HPIA prepared using carrier-free 125I bound to adenosine receptors on membranes from rat cerebral cortex, adipocyte ghosts, and heart ventricles. Binding was inhibited stereospecifically by PIA and by other adenosine analogues and alkylxanthines. The KD of [125I]HPIA determined kinetically using brain membranes at 21 degrees was 0.94 nM (K1 = 2.55 X 10(7) M-1 min-1; K-1 = 0.024 min-1) in good agreement with the equilibrium determination of 1.94 nM. The density of adenosine receptors in brain membranes was found to be 871 fmol/mg of protein. When normalized to protein, the density of receptors in heart membranes and adipocyte ghosts, respectively, was found to be 39- and 2.3-fold less than in brain membranes. We conclude that [125I]HPIA can be rapidly synthesized and purified, binds to adenosine R-sites and is an agonist radioligand resistant to adenosine deaminase. Computer modeling of the equilibrium binding resulting from the use of mixed stereoisomers of a radioligand indicates that the combined use of (-)[125I]HPIA and (+)[125I]HPIA would result in the generation of nonlinear Scatchard plots.
...
PMID:Purification and characterization of (-)[125I]hydroxyphenylisopropyladenosine, an adenosine R-site agonist radioligand and theoretical analysis of mixed stereoisomer radioligand binding. 609 94
In an attempt to study intrinsic regulatory mechanism involved in iodine metabolism, chronic and acute effects of TSH, PGE2 and DBC on iodine uptake, iodide discharge and organic binding of iodine were examined using cultured porcine thyroid cells. Culture in the presence of TSH, PGE2 and DBC for 6 days maintained the ability to thyroid cells to take up iodine and organify it, but culture in the absence of these substances failed to do so. When incubated with
NaI
in the presence of 1 mM methylmercaptoimidazole (MMI), the cells took up iodide and this accumulated iodide was discharged by TSH, pGE2 and DBC. TSH-, PGE2, and DBC-stimulated iodide discharge was depressed greatly after chronic exposure to TSH, PGE2 or DBC. This refractoriness of TSH-, PGE2- or DBC-stimulated iodide discharge was not specific for each thyroid stimulating substance; previous exposure to TSH, PGE2 or DBC induced refractoriness of TSH-, PGE2- and DBC-stimulated iodide discharge, providing evidence for the existence of refractoriness at the level of cyclic
AMP
action on iodide discharge. When incubated with
NaI
in the absence of MMI, the cells took up iodide and organified it. After 30 min incubation with
NaI
, TSH, PGE2 and DBC were added and they stimulated iodide organification further. This TSH- and PGE2-stimulated iodide organification was also depressed after exposure to TSH or PGE2. These data indicate that, as an intrinsic regulatory mechanism, refractoriness is operating at the level of cAMP action on iodine discharge and organification.
...
PMID:Refractoriness of TSH- and PGE2-stimulated iodine metabolism in cultured porcine thyroid cells, evidence for refractoriness at the level of cAMP action. 628 Apr 33
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
