PCBP1 and NCOA4 regulate erythroid iron storage and heme biosynthesis
Moon-Suhn Ryu, … , Minoo Shakoury-Elizeh, Caroline C. Philpott
Moon-Suhn Ryu, … , Minoo Shakoury-Elizeh, Caroline C. Philpott
Published April 4, 2017
Citation Information: J Clin Invest. 2017;127(5):1786-1797. https://doi.org/10.1172/JCI90519.
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Research Article Hematology

PCBP1 and NCOA4 regulate erythroid iron storage and heme biosynthesis

Abstract

Developing erythrocytes take up exceptionally large amounts of iron, which must be transferred to mitochondria for incorporation into heme. This massive iron flux must be precisely controlled to permit the coordinated synthesis of heme and hemoglobin while avoiding the toxic effects of chemically reactive iron. In cultured animal cells, iron chaperones poly rCbinding protein 1 (PCBP1) and PCBP2 deliver iron to ferritin, the sole cytosolic iron storage protein, and nuclear receptor coactivator 4 (NCOA4) mediates the autophagic turnover of ferritin. The roles of PCBP, ferritin, and NCOA4 in erythroid development remain unclear. Here, we show that PCBP1, NCOA4, and ferritin are critical for murine red cell development. Using a cultured cell model of erythroid differentiation, depletion of PCBP1 or NCOA4 impaired iron trafficking through ferritin, which resulted in reduced heme synthesis, reduced hemoglobin formation, and perturbation of erythroid regulatory systems. Mice lacking Pcbp1 exhibited microcytic anemia and activation of compensatory erythropoiesis via the regulators erythropoietin and erythroferrone. Ex vivo differentiation of erythroid precursors from Pcbp1-deficient mice confirmed defects in ferritin iron flux and heme synthesis. These studies demonstrate the importance of ferritin for the vectorial transfer of imported iron to mitochondria in developing red cells and of PCBP1 and NCOA4 in mediating iron flux through ferritin.

Authors

Moon-Suhn Ryu, Deliang Zhang, Olga Protchenko, Minoo Shakoury-Elizeh, Caroline C. Philpott

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Figure 3

PCBP2 deficiency enhances the flux of exogenous iron through ferritin in developing erythroid progenitors.

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PCBP2 deficiency enhances the flux of exogenous iron through ferritin in...
G1E-ER4 cells were depleted of PCBP2 by siRNA, then treated and analyzed as in Figure 2. (A) Red coloration is more prominent in PCBP2-deficient G1E-ER4 cells. (B) Confirmation of PCBP2 depletion by Western blotting. (C) PCBP2 deficiency increases 55Fe levels in ferritin and Hb during erythroid development (n = 3). (D) PCBP2 depletion affects protein indicators of cellular iron and erythropoiesis in a manner opposite from that of PCBP1 depletion. (E) NCOA4 protein abundance is posttranscriptionally upregulated by PCBP2 depletion (n = 4). Transcript and protein abundance were normalized to β-actin and α-tubulin, respectively. (F) PCBP2-depleted cells exhibit increased binding of ferritin to PCBP1 by co-IP. *P < 0.05; **P < 0.01; ***P < 0.001, paired 2-tailed t tests.