4). It is well known that iron overload induces hepcidin transcription,3 and it was previously shown that hepcidin correlates with LIC.31, 32 The fact that transferrin-bound iron might
induce hepcidin expression has been suggested in humans,6, 33 and demonstrated in vitro.33 To study the separate effects of circulating and tissue iron on hepcidin regulation, we treated animals with acute or chronic iron administration to obtain isolated increases CH5424802 clinical trial of either Tf sat or LIC. We aimed to make the iron treatments as physiologic as possible by choosing an enteral administration route and a 2 mg/kg iron dose for gavage, the lowest effective dose to significantly increase Tf sat without affecting LIC in preliminary experiments (data not shown),
about equivalent to a human patient taking two over-the-counter iron sulfate supplement pills (65 mg elemental iron each). Although the presence of circulating nontransferrin-bound iron (NTBI) and its redox active form (labile iron pool) LPI may not be excluded,34 we targeted and achieved a submaximal Tf sat of up to 82% with acute iron treatment and 95% with chronic iron treatment. In the acute iron administration setting, where Tf sat was increased but LIC was not, Hamp mRNA expression was selleck compound also significantly increased. Additionally, in the chronic iron administration setting, Tf sat was an independent predictor of Hamp mRNA level by multivariate analysis. Thus, our data clearly demonstrate that Tf sat plays
a crucial role in hepcidin regulation in vivo. The BMP-SMAD signaling pathway is a main regulator of hepcidin expression and systemic iron homeostasis,1 and Tf sat has been suggested to signal to hepcidin through the BMP-SMAD pathway by indirect proofs and in vitro.33 Here we showed that hepatic P-Smad1/5/8 protein and Id1 mRNA were MCE increased in the acute iron administration setting where Tf sat was increased but LIC and hepatic Bmp6 mRNA were not. Thus, our data demonstrates that Tf sat activates the BMP-SMAD signaling pathway independently of LIC and downstream of hepatic BMP6 mRNA induction. The mechanism by which Tf sat activates SMAD phosphorylation remains uncertain. We did not see a clear effect of acute iron administration on expression of the BMP coreceptor hemojuvelin or the serine protease TMPRSS6, which is reported to cleave hemojuvelin35 (Supporting Fig. 5). Interestingly, SMAD phosphorylation and BMP-SMAD target transcript expression has been demonstrated to be impaired relative to the degree of iron overload and BMP6 expression in Hfe and Tfr2 null mice and human patients with HFE mutations18, 20-24 (Corradini E, Babitt JL, Fleming RE, et al., unpubl. data), suggesting that HFE and TFR2 may be involved.