Isocitrate ameliorates anemia by suppressing the erythroid iron restriction response
Chanté L. Richardson, … , Stefano Rivella, Adam N. Goldfarb
Chanté L. Richardson, … , Stefano Rivella, Adam N. Goldfarb
Published July 25, 2013
Citation Information: J Clin Invest. 2013;123(8):3614-3623. https://doi.org/10.1172/JCI68487.
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Research Article Hematology

Isocitrate ameliorates anemia by suppressing the erythroid iron restriction response

Abstract

The unique sensitivity of early red cell progenitors to iron deprivation, known as the erythroid iron restriction response, serves as a basis for human anemias globally. This response impairs erythropoietin-driven erythropoiesis and underlies erythropoietic repression in iron deficiency anemia. Mechanistically, the erythroid iron restriction response results from inactivation of aconitase enzymes and can be suppressed by providing the aconitase product isocitrate. Recent studies have implicated the erythroid iron restriction response in anemia of chronic disease and inflammation (ACDI), offering new therapeutic avenues for a major clinical problem; however, inflammatory signals may also directly repress erythropoiesis in ACDI. Here, we show that suppression of the erythroid iron restriction response by isocitrate administration corrected anemia and erythropoietic defects in rats with ACDI. In vitro studies demonstrated that erythroid repression by inflammatory signaling is potently modulated by the erythroid iron restriction response in a kinase-dependent pathway involving induction of the erythroid-inhibitory transcription factor PU.1. These results reveal the integration of iron and inflammatory inputs in a therapeutically tractable erythropoietic regulatory circuit.

Authors

Chanté L. Richardson, Lorrie L. Delehanty, Grant C. Bullock, Claudia M. Rival, Kenneth S. Tung, Donald L. Kimpel, Sara Gardenghi, Stefano Rivella, Adam N. Goldfarb

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Figure 1

IC injections correct anemia and defective marrow erythropoiesis in a rat arthritis model of ACDI.

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IC injections correct anemia and defective marrow erythropoiesis in a ra...
(A) Normalization of peripheral blood hemoglobin levels (Hb) with 10 injections of IC. Arthritis was induced by injection of PG-PS on day 0 and treatment with either IC (green) or saline (red) initiated on day 14. Nonanemic controls are shown in blue. n = 4/group for IC and 5/group for saline and nonanemic controls. (B) Sustained anemia correction with 3 IC injections. Experiment was conducted as in A with n = 5/group. (C) Peripheral blood reticulocyte counts in animals from B. (D) Correction of marrow erythroid defects with 3 IC injections. Animals treated as in B were euthanized on day 21 for marrow analysis by flow cytometry. Shown are 3 representative animals from each group. (E) Composite of data from D. Percentage and number of marrow erythroid cells (CD71+CD11b). n = 5/group. (F) Normalization of hepcidin expression with IC treatment. Animals treated as in B were euthanized on day 42 followed by qPCR analysis of liver hepcidin (HAMP) mRNA levels. Results are normalized to GAPDH and expressed relative to levels in noninflamed controls. n = 5/group. All data are mean ± SEM. *P < 0.05; **P < 0.01.