Long-term effect of norepinephrine on iodide uptake in FRTL-5 cells.

The sympathetic nervous system plays a role in the regulation of thyroid function. In FRTL-5 rat thyroid cells, norepinephrine (NE) acutely depresses intracellular I- by increasing I- efflux. The present study was undertaken to determine the effect of NE on iodide transport after a longer time period. NE inhibited the ability of thyrotropin (TSH) to induce iodide uptake by FRTL-5 cells after 48 or 72 hours, but not after 24 hours. The effect of NE was more evident with increasing concentrations of TSH. NE did not modify the rate of I- efflux. Inhibition was associated with a decrease in the Vmax and no change in the Km for iodide influx. To determine if this was a generalized effect of NE on thyroid cell membrane, the uptake of alpha-aminoisobutyric acid (a nonmetabolizable aminoacid) and of 2-deoxyglucose was measured. NE did not inhibit TSH stimulation of the uptake of the two compounds. NE inhibited the action of dibutyryl cAMP (dbcAMP) on iodide uptake in a similar manner to TSH, but did not alter the cyclic adenosine monophosphate (cAMP) levels increased by TSH. The effects of different adrenoreceptor agonists and antagonists demonstrated that norepinephrine acts through an alpha1-adrenergic receptor.

Role of cyclic 3'5' guanosine monophosphate and nitric oxide in the regulation of iodide uptake in calf thyroid cells.

Sodium nitroprusside (SNP) spontaneously produces nitric oxide (NO). In many cell types, this activates the soluble form of the enzyme guanylyl cyclase (GC), resulting in the elevation of cGMP. We herein report the role of NO and cGMP on iodide uptake in primary cultures of calf thyroid cells. Iodide uptake is the limiting step in thyroid hormone biosynthesis and a typical functional parameter. The effect of SNP on this parameter was thus determined. In cells treated with TSH for 72 h, addition of 5 mM SNP for the last 2 h caused a significant inhibition on iodide uptake, with no change in cells not treated with TSH. This action was mimicked by an analogue of cGMP, 8Br-cGMP, and blocked by reduced hemoglobin, thus suggesting that it is mediated by the GC-cGMP pathway. SNP also inhibited the stimulation caused by forskolin or analogues of cAMP, indicating that the effect takes place in this pathway, which would be distal to cAMP generation. The accumulation of radioiodine by thyroid cells is a consequence of the balance between influx and efflux. The studies demonstrate that SNP does not affect iodide efflux, thus revealing that it inhibits the influx.

Studies on the goiter inhibiting action of iodolactones.

The thyroid gland synthesizes 6-delta-iodolactone, a compound shown to inhibit goiter growth in vivo and cell proliferation in culture. The present studies were performed to characterize this effect further with the aim of exploring the possible therapeutic action of iodolactones. Prevention assay: rats were treated simultaneously with a goitrogen, methylmercaptoimidazole, and either 6-delta-iodo-lactone or 14-iodo-omega-lactone, a synthetic derivative, given either i.p. or p. o. Both compounds caused a significant decrease in thyroid weight irrespective of the route of administration, but oral administration was less effective. A dose-response relationship was observed, the minimal effective dose (i.p.) being 3 micrograms/day. Involution assay: goiter was first induced with methylmercaptoimidazole and then the iodolactones were injected. Both compounds caused a significant involution, which was dose-related. Acute (10 days) administration of the iodolactones did not produce significant changes in several serum parameters (total T3 and T4, cholesterol, total protein, urea and acetylcholinesterase). These results give further support to the potential therapeutic application of iodolactones.

Effect of iodoarachidonates on thyroid FRTL-5 cells growth.

Excess iodide inhibits several thyroid parameters, by a putative organic iodocompound. Different iodolipids, including iodinated derivatives of arachidonic acid (IAs), are produced by rat, calf and pig thyroid. The action of two iodolactones, one bearing the iodine atom at the position 6 (IL-d) and the other at position 14 (IL-w) on growth of FRTL-5 cells was studied. KI, IL-w and IL-d exert a dose-related inhibition on FRTL-5 cell proliferation. The first two compounds caused inhibition at 1 microM while IL-d was effective at 10 microM. This inhibitory action of iodolactones (ILs) was not altered by 1 mM methyl-mercaptoimidazol (MMI), indicating that they exert their effect per se. The action of ILw on cell growth was reversible. The growth-stimulating effect of 10 microM forskolin was inhibited by IAs, showing that one possible site of action lies at the cAMP pathway. The present results give further support to our hypothesis about the role of IAs in thyroid growth autoregulation.

Further studies on the antigoitrogenic action of iodoarachidonates.

Previous studies have shown that iodoarachidonates (IAs) prevent goiter production in rats. In the present studies we show that both IL-d and IL-w (IAs bearing the iodine atom at the positions 6 and 14, respectively), cause a significant involution of preformed goiter. This effect was evident when IAs were administered either orally or via i.p., although the first one required larger doses to obtain the same degree of inhibition. No changes were observed in serum protein, urea, cholesterol, cholinesterase, T3 or T4. In vitro studies with FRTL-5 cells showed that both IAs inhibit iodide and alpha-AIB uptake, as well as ATPase activity.

Thyroid autoregulation: evidence for an action of iodoarachidonates and iodide at the cell membrane level.

Iodolipids are the possible mediators of excess iodide in thyroid autoregulation. Previous work from our laboratory has shown that 14-iodo-15-hydroxy-5,8,11 eicosatrienoic acid (I-HO-A) and its omega lactone (IL-w) mimic the inhibitory action of excess iodide upon several parameters of thyroid metabolism. The present experiments were performed in order to study the mechanism of the inhibitory effect of I-HO-A and IL-w on 2-deoxy-D-glucose (DOG) and aminoisobutyric acid (AIB) uptake by calf slices. I-HO-A, IL-w and KI 0.1 mM caused a 33, 31 and 25% inhibition, respectively, of AIB uptake. The presence of 0.1 mM methimazole (MMI) only reversed the effect of KI. The transport of DOG was inhibited by both compounds: I-HO-A caused a 62% decrease, while IL-w produced a 64% inhibition; and MMI failed to relieve their action. On the contrary, the 33% inhibition caused by KI disappeared when MMI was present. Taking into account that AIB and DOG transport across the membrane requires energy, supplied by Na-K-ATPase, changes in its activity were studied. TSH (10 mU/ml) produced a 74% increase in the enzyme activity which was significantly blocked by KI (82%), I-HO-A (100%) and IL-w (100%). Basal enzyme activity was impaired by IL-w (33%), but not by KI. These results were correlated with the decrease of DOG uptake produced by 1 mM ouabain. Tissue specificity effect of iodoarachidonates was demonstrated by the absence of action on DOG transport in kidney and liver.(ABSTRACT TRUNCATED AT 250 WORDS)