Hepcidin expression is associated with increased γ-secretase-mediated cleavage of neogenin in the liver.

Neogenin (NEO1) is a ubiquitously expressed transmembrane protein. It interacts with hemojuvelin (HJV). Both NEO1 and HJV play pivotal roles in iron homeostasis by inducing hepcidin expression in the liver. Our previous studies demonstrated that this process depends on Neo1-Hjv interaction and showed that the Hjv-mediated hepcidin expression is correlated with the accumulation of a truncated and membrane-associated form of Neo1. In this study, we tested whether hepcidin expression is induced by increased γ-secretase-mediated cleavage of Neo1 in the liver. We found that Neo1 underwent cleavage of its ectodomain and intracellular domains by α- and γ-secretases, respectively, in hepatoma cells. Our in vitro studies suggest that γ-secretase is responsible for cleavage and release of the cytoplasmic domain of Neo1 in the Hjv-Neo1 complex. This process was enhanced by the inhibition of α-secretase proteolysis and by co-expression with the Neo1-binding partner, Alk3. Further in vivo studies indicated that Neo1 induction of hepcidin expression required γ-secretase cleavage. Interestingly, neither predicted form of γ-secretase-cleaved Neo1 was able to induce hepcidin when separately expressed in hepatocyte-specific Neo1 KO mice. These results imply that the function of Neo1 requires a de novo γ-secretase proteolysis. Additional studies revealed that in addition to the Hjv-binding domains, the function of Neo1 also required its C-terminal intracellular domain and the N-terminal immunoglobulin-like domains that are involved in Neo1 binding to Alk3. Together, our data support the idea that Neo1 induction of hepcidin is initiated as a full-length form and requires a de novo γ-secretase cleavage of Neo1's cytoplasmic domain.