Role of alpha hemoglobin-stabilizing protein in normal erythropoiesis and β-thalassemia

Mitchell J. Weiss, Suiping Zhou, Liang Feng, David A. Gell, Joel P. Mackay, Yigong Shi, Andrew J. Gow

Research output: Contribution to journalArticlepeer-review

37 Citations (Scopus)


Hemoglobin (Hb) synthesis is coordinated by homeostatic mechanisms to limit the accumulation of free α or β subunits, which are cytotoxic. Alpha hemoglobin-stabilizing protein (AHSP) is an abundant erythroid protein that specifically binds free αHb, stabilizes its structure, and limits its ability to participate in chemical reactions that generate reactive oxygen species. Gene ablation studies in mice demonstrate that AHSP is required for normal erythropoiesis. AHSP-null erythrocytes are short-lived, contain Hb precipitates, and exhibit signs of oxidative damage. Loss of AHSP exacerbates β-thalassemia in mice, indicating that altered AHSP expression or function could modify thalassemia phenotypes in humans, a topic that is beginning to be explored in clinical studies. We used biochemical, spectroscopic, and crystallographic methods to examine how AHSP stabilizes αHb. AHSP binds the G and H helices of αHb on a surface that largely overlaps with the α1-β1 interface of HbA. This result explains previous findings that βHb can competitively displace AHSP from αHb to form HbA tetramer. Remarkably, binding of AHSP to oxygenated αHb induces dramatic conformational changes and converts the heme-bound iron to an oxidized hemichrome state in which all six coordinate positions are occupied. This structure limits the reactivity of heme iron, providing a mechanism by which AHSP stabilizes αHb. These findings suggest a biochemical pathway through which AHSP might participate in normal Hb synthesis and modulate the severity of thalassemias. Moreover, understanding how AHSP stabilizes αHb provides a theoretical basis for new strategies to inhibit the damaging effects of free αHb that accumulates in β-thalassemia.

Original languageEnglish
Pages (from-to)103-117
Number of pages15
JournalAnnals of the New York Academy of Sciences
Publication statusPublished - 2005
Externally publishedYes


  • Erythropoiesis
  • GATA-1
  • Hemoglobinopathy
  • Reactive oxygen species

ASJC Scopus subject areas

  • Biochemistry, Genetics and Molecular Biology(all)

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