1. Cell surface serine protease matriptase-2 suppresses fetuin-A/AHSG-mediated induction of hepcidin
- Author
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Marit Stirnberg, Willi Jahnen-Dechent, Michael Gütschow, Katharina Arenz, Anne Babler, and Eva Maurer
- Subjects
Serine protease ,biology ,Chemistry ,Clinical Biochemistry ,Serine Endopeptidases ,Membrane Proteins ,Biochemistry ,Fetuin ,Transmembrane protein ,Cell biology ,Mice ,Downregulation and upregulation ,Hepcidins ,Hepcidin ,biology.protein ,Animals ,Signal transduction ,Mothers against decapentaplegic ,Serine Proteases ,Fetuins ,Molecular Biology ,Hemojuvelin ,Signal Transduction - Abstract
Matriptase-2 is a type II transmembrane serine protease controlling the expression of hepcidin, the key regulator of iron homeostasis. By cleaving hemojuvelin, matriptase-2 suppresses bone morphogenetic protein/sons of mothers against decapentaplegic signaling. So far, the only known putative substrates of matriptase-2 are hemojuvelin and matriptase-2 itself. In this study, fetuin-A (α2-Heremans-Schmid glycoprotein) was identified in vitro as a substrate of matriptase-2. The protease–substrate interaction was validated by isolating matriptase-2 via the affinity to fetuin-A. Fetuin-A is a liver-derived plasma protein with multiple functions, which is proteolytically processed to yield a disulfide-linked two-chain form. In co-transfected cells, a matriptase-2-dependent conversion of unprocessed fetuin-A into a two-chain form was detected. Conversely, downregulation of endogenously expressed matriptase-2 stabilized fetuin-A. Arg and Lys residues located within the 40 residue spanning connecting peptide of fetuin-A were identified as cleavage sites for matriptase-2. Analysis of hepcidin expression revealed an inductive effect of fetuin-A, which was abolished by matriptase-2. Fetuin-A deficiency in mice resulted in decreased hepcidin mRNA levels. These findings implicate a role of fetuin-A in iron homeostasis and provide new insights into the mechanism of how matriptase-2 might modulate hepcidin expression.
- Published
- 2014