Abstract
Inactivating mutations in hemojuvelin/repulsive guidance molecule c (HJV/RGMc) cause juvenile hemochromatosis (JH), a rapidly progressive iron overload disorder in which expression of hepcidin, a key liver-derived iron-regulatory hormone, is severely diminished. Several growth factors in the bone morphogenetic protein (BMP) family, including BMP2 and BMP6, can stimulate production of hepcidin, a biological effect that may be modified by RGMc. Here we demonstrate that soluble RGMc proteins are potent BMP inhibitors. We find that 50- and 40-kDa RGMc isoforms, when added to cells as highly purified IgG Fc fusion proteins, are able to block the acute effects of both BMP2 and BMP6 at the levels of Smad induction and gene activation, and thus represent a potentially unique class of broad-spectrum BMP antagonists. Whole transcript microarray analysis revealed that BMP2 and BMP6 each stimulated expression of a nearly identical cohort of approximately 40 mRNAs in Hep3B cells and demonstrated that 40-kDa RGMc was an effective inhibitor of both growth factors, although its potency was less than that of the known BMP2-selective antagonist, Noggin. We additionally show that JH-linked RGMc mutant proteins that retain the ability to bind BMPs are also able to function as BMP inhibitors, and like the wild type soluble RGMc species, can block BMP-activated hepcidin gene expression. The latter results raise the question of whether disease severity in JH will vary depending on the ability of a given mutant RGMc protein to interact with BMPs.
Highlights
Linked to alterations in the HJV/HFE2 gene, which encodes for hemojuvelin (HJV) [3, 4]
We show that juvenile hemochromatosis (JH)-linked RGMc mutant proteins that retain the ability to bind bone morphogenetic protein (BMP) are able to function as BMP inhibitors, and like wild type soluble RGMc species, can block BMP-activated hepcidin gene expression
(25), these results show that RGMc mutants inhibit BMP soluble RGMc40 can inhibit BMP2- and BMP4-mediated sigactions by direct growth factor binding, and indicate that there naling and hepcidin gene expression in primary mouse hepatois a rough correlation between binding strength and inhibitory cytes and other cultured cells [31, 39]
Summary
Materials—Fetal bovine serum, Ultralow IgG fetal bovine serum, Dulbecco’s modified Eagle’s medium, modified Eagle’s medium, insulin-transferrin-selenium, phosphate-buffered saline, trypsin/EDTA, AcTEV Protease, Protein A-Sepharose 4B, TRIzol reagent, and Superscript III first-strand cDNA synthesis kit were purchased from Invitrogen. In Hep3B cells, as indicated by ϳ2-fold greater increases in hepcidin, SMAD7, and ID1 mRNAs at any growth factor dose up to 200 ng/ml (Fig. 1C) Taken together, these results show that both BMP2 and described above, followed by an additional sodium acetate-eth- BMP6 rapidly activate Smads and stimulate gene expression in anol precipitation. Whole transcript analysis with Human Gene 1.0 ST GeneChip arrays revealed that BMP2 and BMP6 stim-
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