Abstract
Previous studies have shown that quercetin inhibits thyroid function both in vitro and in vivo. An attempt to evaluate the effect of quercetin at the promoter level of the thyroid-specific genes led to the observation that this compound induces the basal activity of the reporter vector. Therefore, the action of quercetin has been evaluated on the basal activity of several reporter vectors: The PGL3 basic, promoter and control vectors from Promega, and a pSV-based chloramphenicol acetyltransferase (CAT) reporter vector. In the Fisher Rat Thyroid cell Line FRTL-5 thyroid cells transiently transfected, quercetin 10 μM increased the basal activity of all the reporter vectors evaluated, although the degree of the effect was significantly different among them. The analysis of the difference among the regulatory regions of these vectors identified the activator protein 1 (AP-1) binding site as one of the potential sites involved in the quercetin effect. Electromobility shift assay experiments showed that the treatment with quercetin induced the binding of a protein complex to an oligonucleotide containing the AP-1 consensus binding site. This is the first study showing an effect of quercetin on AP-1 activity in thyroid cells. Further studies are in progress to understand the role of AP-1 activation in the effects of quercetin on thyroid function.
Highlights
Quercetin (3,30,40,5,7-pentahydroxyflavone) is one of the most widely distributed and abundant flavonoids present in fruits and vegetables
Quercetin Up-Regulates the Activity of the Following Reporter Vectors: PGL3 Basic, PGL3 Control, PGL3 Promoter, and PSV0-chloramphenicol acetyltransferase (CAT)
The dose and time of the treatment were chosen based on previous studies that had shown that these treatment conditions were characterized by maximal effects of quercetin on thyroid genes expression, without toxic effects on the FRTL-5 cells [10,11]
Summary
Quercetin (3,30 ,40 ,5,7-pentahydroxyflavone) is one of the most widely distributed and abundant flavonoids present in fruits and vegetables. Several studies have shown that quercetin possesses many therapeutically relevant properties, and its effects have been evaluated at cellular and molecular level [1,2,3,4,5,6,7]. Several reports have shown that quercetin possesses anti-thyroid and goitrogenic effects [8,9,10,11]. Quercetin down-regulates the expression of the thyroid-specific genes sodium/iodide symporter (NIS), thyrotropin receptor (TSHR), TPO, and thyroglobulin (TG) in the FRTL-5 rat thyroid cells in continuous culture [10,11]. An attempt to evaluate the effect of quercetin at the promoter level of the aforementioned thyroid-specific genes showed a strong induction of the basal activity of the reporter gene
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