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Disposal of iron by a mutant form of lipocalin 2

Author

Listed:
  • Jonathan Barasch

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Maria Hollmen

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Rong Deng

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Eldad A. Hod

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Peter B. Rupert

    (Fred Hutchinson Cancer Research Center, University of Washington School of Medicine Biochemistry, Immunology)

  • Rebecca J. Abergel

    (Lawrence Berkeley National Laboratory, BioActinide Chemistry Group)

  • Benjamin E. Allred

    (Lawrence Berkeley National Laboratory, BioActinide Chemistry Group)

  • Katherine Xu

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Shaun F. Darrah

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Yared Tekabe

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Alan Perlstein

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Rebecca Wax

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Efrat Bruck

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Jacob Stauber

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Kaitlyn A. Corbin

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Charles Buchen

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Vesna Slavkovich

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Joseph Graziano

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Steven L. Spitalnik

    (Columbia University, Russ Berrie Medical Science Pavilion)

  • Guanhu Bao

    (State Key Laboratory of Tea Plant Biology and Utilization, School of Tea and Food Sciences, Anhui Agricultural University)

  • Roland K. Strong

    (Fred Hutchinson Cancer Research Center, University of Washington School of Medicine Biochemistry, Immunology)

  • Andong Qiu

    (Columbia University, Russ Berrie Medical Science Pavilion
    Columbia University, New York & Tongji University, School of Life Sciences and Technology)

Abstract

Iron overload damages many organs. Unfortunately, therapeutic iron chelators also have undesired toxicity and may deliver iron to microbes. Here we show that a mutant form (K3Cys) of endogenous lipocalin 2 (LCN2) is filtered by the kidney but can bypass sites of megalin-dependent recapture, resulting in urinary excretion. Because K3Cys maintains recognition of its cognate ligand, the iron siderophore enterochelin, this protein can capture and transport iron even in the acidic conditions of urine. Mutant LCN2 strips iron from transferrin and citrate, and delivers it into the urine. In addition, it removes iron from iron overloaded mice, including models of acquired (iron-dextran or stored red blood cells) and primary (Hfe−/−) iron overload. In each case, the mutants reduce redox activity typical of non-transferrin-bound iron. In summary, we present a non-toxic strategy for iron chelation and urinary elimination, based on manipulating an endogenous protein:siderophore:iron clearance pathway.

Suggested Citation

  • Jonathan Barasch & Maria Hollmen & Rong Deng & Eldad A. Hod & Peter B. Rupert & Rebecca J. Abergel & Benjamin E. Allred & Katherine Xu & Shaun F. Darrah & Yared Tekabe & Alan Perlstein & Rebecca Wax &, 2016. "Disposal of iron by a mutant form of lipocalin 2," Nature Communications, Nature, vol. 7(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms12973
    DOI: 10.1038/ncomms12973
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