Hemojuvelin

Hemojuvelin (HJV/RGMc/HFE2) is a membrane-bound and soluble protein in mammals that is responsible for the iron overload condition known as is_associated_with::juvenile hemochromatosis in humans, a severe form of hemochromatosis. In humans, the hemojuvelin protein is encoded by the HFE2 is_associated_with::gene. HJV is also called RGMc, a member of a three gene family (in vertebrates) called the is_associated_with::repulsive guidance molecules. Both RGMa and RGMb are found in the nervous system while RGMc is found in skeletal muscle and the liver.

Function
For many years the signal transduction pathways that regulate systemic iron homeostasis have been unknown. However it has been demonstrated that hemojuvelin interacts with is_associated_with::bone morphogenetic protein (BMP), possibly as a co-receptor, and may signal via the SMAD pathway to regulate hepcidin expression. Associations with BMP2 and is_associated_with::BMP4 have been described.

Mouse HJV knock-out models confirmed that HJV is the is_associated_with::gene responsible for juvenile hemochromatosis. Hepcidin levels in the liver are dramatically depressed in these knockout animals.

A soluble form of HJV may be a molecule that suppresses hepcidin expression.

RGMs may play inhibitory roles in prostate cancer by suppressing cell growth, adhesion, migration and invasion. RGMs can coordinate Smad-dependent and Smad-independent signalling of BMPs in prostate cancer and breast cancer cells. Furthermore, aberrant expression of RGMs was indicated in breast cancer. The perturbed expression was associated with disease progression and poor prognosis.

Related gene problems

 * is_associated_with::TAR syndrome
 * is_associated_with::1q21.1 deletion syndrome
 * is_associated_with::1q21.1 duplication syndrome

Gene structure and transcription
RGMc/HJV is a 4-is_associated_with::exon gene in mammals that undergoes alternative RNA splicing to yield 3 mRNAs with different 5’ untranslated regions (5’UTRs). Gene transcription is induced during is_associated_with::myoblast differentiation, producing all 3 mRNAs. There are three critical promoter elements responsible for transcriptional activation in skeletal muscle (the tissue that has the highest level of RGMc expressesion per weight), comprising paired is_associated_with::E-boxes, a putative Stat and/or Ets element, and a is_associated_with::MEF2 site, and muscle transcription factors myogenin and is_associated_with::MEF2C stimulate RGMc promoter function in non-muscle cells. As these elements are conserved in RGMc genes from multiple species, these results suggest that RGMc has been a muscle-enriched gene throughout its evolutionary history.

RGMc/HJV, is transcriptionally regulated during muscle differentiation.

Isoforms
Two classes of GPI-anchored and glycosylated HJV molecules are targeted to the membrane and undergo distinct fates.
 * Full-length HJV is released from the cell surface and accumulates in extracellular fluid, where its half-life exceeds 24 hours. There appears to be two potential soluble isoforms and two membrane-associated isoforms.
 * The predominant membrane-associated isoform, a disulfide-linked two-chain form composed of N- and C-terminal fragments, is not found in the extracellular fluid, and is short-lived, as it disappears from the cell surface with a half-life of < 3 hours after interruption of protein synthesis.

RGMc appears to undergo a complex processing that generates 2 soluble, single-chain forms, and two membrane-bound forms found as a (i) single-chain, and (ii) two-chain species which appears to be cleaved at a site within a partial is_associated_with::von Willebrand factor domain.

Using a combination of biochemical and cell-based approaches, it has demonstrated that BMP-2 could interact in biochemical assays with the single-chain HJV species, and also could bind to cell-associated HJV. Two mouse HJV amino acid substitution mutants, D165E and G313V (corresponding to human D172E and G320V), also could bind BMP-2, but less effectively than wild-type HJV, while G92V (human G99V) could not. In contrast, the membrane-spanning protein, neogenin, a receptor for the related molecule, RGMa, preferentially bound membrane-associated heterodimeric RGMc and was able to interact on cells only with wild-type RGMc and G92V. These results show that different isoforms of RGMc/HJV may play unique physiological roles through defined interactions with distinct signaling proteins and demonstrate that, in some disease-linked HJV mutants, these interactions are defective.

Structure
In 2009, the Rosetta ab initio protein structure prediction software has been used to create a three-dimensional model of the RGM family of proteins., In 2011, a crystal structure of a fragment of hemojuvelin binding to neogenin was completed showing similar structures to the ab initio model and further informing the view of the RGM family of proteins.

Mechanism of action
is_associated_with::Furin-like is_associated_with::proprotein convertases (PPC) are responsible for conversion of 50 kDa HJV to a 40 kDa protein with a truncated COOH-terminus, at a conserved polybasic RNRR site. This suggests a potential mechanism to generate the soluble forms of HJV/hemojuvelin (s-hemojuvelin) found in the blood of rodents and humans.

Clinical significance
Mutations in HJV are responsible for the vast majority of juvenile hemochromatosis patients. A small number of patients have mutations in the hepcidin (is_associated_with::HAMP) gene. The gene was positionally cloned. Hemojuvelin is highly expressed in skeletal muscle and heart, and to a lesser extent in the liver. One insight into the pathogenesis of juvenile hemochromatosis is that patients have low to undetectable urinary is_associated_with::hepcidin levels, suggesting that hemojuvelin is a positive regulator of hepcidin, the central is_associated_with::iron regulatory hormone. As a result, low hepcidin levels would result in increased intestinal iron absorption. Thus, HJV/RGMc appears to play a critical role in is_associated_with::iron metabolism.