Quercetin Inhibits Hephaestin Expression and Iron Transport in Intestinal Cells: Possible Role of PI3K Pathway.

Previous studies demonstrated that quercetin, a polyphenolic compound, inhibits the transport of iron by down-regulation of ferroportin (FPN1), an iron export protein. We have previously demonstrated that activation of the PI3K signaling pathway by zinc stimulates the intestinal iron uptake and transport by stimulating the expression of iron regulatory protein 2 (IRP2) dependent divalent metal iron transporter 1 (DMT1, apical iron transporter) expression and caudal-related homeobox transcription factor 2 (CDX2) dependent hephaestin (HEPH, basolateral ferroxidase required for iron oxidation) expression, respectively. Since polyphenols are antagonists of the PI3K pathway, we hypothesized that quercetin might inhibit basolateral iron transport via the down-regulation of hephaestin (HEPH). Here in we investigated the effect of quercetin on iron uptake, transport, and expression of iron transporters in intestinal cells. In differentiated Caco-2 cells grown on permeable supports, quercetin inhibited the basolateral iron transport while increasing the iron uptake, possibly due to higher cellular retention. Further, quercetin down-regulated the protein and mRNA expression of HEPH and FPN1 but not that of IRP2 or DMT1. In addition, quercetin also abrogated the zinc-induced Akt, CDX2 phosphorylation, and HEPH expression. Together these results suggest that inhibition of iron transport by quercetin is mediated via the down-regulation of CDX2-dependent HEPH expression via inhibition of the PI3K pathway.

Zinc induces hephaestin expression via a PI3K-CDX2 dependent mechanism to regulate iron transport in intestinal Caco-2 cells.

Zinc stimulates intestinal iron absorption via induction of divalent metal ion transporter (DMT1) and hephaestin (HEPH). While the increase in DMT1 is mediated via a PI3K/IPR2 axis, the mechanisms of Zn-induced HEPH expression downstream of PI3K remain elusive. In the current study we probed the role of Caudal-related homeobox transcription factor-2 (CDX2) on Zn-induced HEPH expression. Zn treatment of Caco-2 cells increased CDX2 phosphorylation and HEPH protein and mRNA expression. siRNA-silencing of CDX2 inhibited Zn-induced HEPH expression. LY294002, an antagonist of PI3K inhibited Zn-induced phosphorylation of CDX2, and downstream HEPH expression. These results suggest that increased expression of HEPH in intestinal cells following Zn treatment is mediated via a PI3K-CDX2 pathway.