Molecular Mechanism of Hepcidin-Mediated Ferroportin Internalization Requires Ferroportin Lysines, Not Tyrosines or JAK-STAT
Copyright policy )Molecular Mechanism of Hepcidin-Mediated Ferroportin Internalization Requires Ferroportin Lysines, Not Tyrosines or JAK-STAT
Ferroportin is the primary means of cellular iron efflux and a key component of iron metabolism. Hepcidin regulates Fpn activity by inducing its internalization and degradation. The mechanism of internalization is reported to require JAK2 activation, phosphorylation of Fpn tyrosine residues 302 and 303, and initiation of transcription through STAT3 phosphorylation. These findings suggest Fpn may be a target for therapeutic intervention through JAK2 modulation. To evaluate the proposed mechanism, Fpn internalization was assessed using several techniques combined with reagents that specifically recognized cell-surface Fpn. In vitro results demonstrated that Hepc-induced Fpn internalization did not require JAK2 or phosphorylation of Fpn residues 302 and 303, nor did it induce JAK-STAT signaling. In vivo, inhibition of JAK2 had no effect on Hepc-induced hypoferremia. However, internalization was delayed by mutation of two Fpn lysine residues that may be targets of ubiquitination.
- University of California, San Francisco United States
- Amgen (United States) United States
- University of California, Los Angeles United States
- University of California System United States
Physiology, Lysine, Amino Acid Motifs, Ubiquitination, Membrane Proteins, Cell Biology, Janus Kinase 2, Protein Transport, STAT Transcription Factors, Ferroportin, HEK293 Cells, Amino Acid Substitution, Hepcidins, Mutagenesis, Site-Directed, Humans, Tyrosine, Phosphorylation, Molecular Biology, Cation Transport Proteins, Protein Processing, Post-Translational, Antimicrobial Cationic Peptides, Signal Transduction
Physiology, Lysine, Amino Acid Motifs, Ubiquitination, Membrane Proteins, Cell Biology, Janus Kinase 2, Protein Transport, STAT Transcription Factors, Ferroportin, HEK293 Cells, Amino Acid Substitution, Hepcidins, Mutagenesis, Site-Directed, Humans, Tyrosine, Phosphorylation, Molecular Biology, Cation Transport Proteins, Protein Processing, Post-Translational, Antimicrobial Cationic Peptides, Signal Transduction
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