Stage Specific Expression Pattern of Alpha-Hemoglobin-Stabilizing-Protein (AHSP) Portrayed in Erythroblast Chronology

During erythropoiesis, the molecular chaperone alpha-hemoglobin-stabilizing protein (AHSP) sequesters free alpha-hemoglobin (αHb) and prevents precipitation of excess αHb. While AHSP is linked to hereditary anemia, the pattern of expression during specific erythroblast stages is poorly understood. We investigated gene and protein expressions of AHSP throughout progressive maturation stages of erythroblasts in biphasic cultures of blood and bone marrow samples from healthy donors. Differentiating erythroblasts were periodically subjected to flow cytometry, Amnis imaging and RT-qPCR analyses. We made parallel in vivo validations from naive murine bone marrow cells. Percentages of AHSP+ erythroblasts, protein expressions and AHSP gene expressions are negligible on culture day 6 (CFU-Es) and progressively increases from culture days 8–12 (peaks on day 12) and declines on day 14. Notably, sub-cellular location of AHSP is both in the cytoplasm and nucleus in the early erythroblasts while in the late stages of maturation AHSP is found predominantly in the nucleus, being expelled with it during enucleation. As both human bone marrow and peripheral blood mononuclear cells (PBMC) derived erythroblasts demonstrated similar expression patterns, sampling of erythroblasts from day 11 cultures could portray erythroblast chronology and provide optimum representative stage specific expression patterns. PBMCs may be suitable for comparison studies of AHSP expression in pathologic erythropoiesi

[1]  A. Baldea,et al.  A Shift in Myeloid Cell Phenotype via Down Regulation of Siglec-1 in Island Macrophages of Bone Marrow Is Associated With Decreased Late Erythroblasts Seen in Anemia of Critical Illness , 2019, Front. Med..

[2]  M. Weiss,et al.  Endothelial cell &agr;-globin and its molecular chaperone &agr;-hemoglobin–stabilizing protein regulate arteriolar contractility , 2018, The Journal of clinical investigation.

[3]  R. Gamelli,et al.  Terminal Maturation of Orthochromatic Erythroblasts Is Impaired in Burn Patients. , 2017, Journal of burn care & research : official publication of the American Burn Association.

[4]  Pallav Sengupta,et al.  Men and mice: Relating their ages. , 2016, Life sciences.

[5]  G. Pinkus,et al.  &agr;-Hemoglobin-stabilizing Protein: An Effective Marker for Erythroid Precursors in Bone Marrow Biopsy Specimens , 2016, Applied immunohistochemistry & molecular morphology : AIMM.

[6]  K. Heesom,et al.  Protein Distribution during Human Erythroblast Enucleation In Vitro , 2013, PloS one.

[7]  R. Gamelli,et al.  Peripheral Blood Mononuclear Cell-Derived Erythroid Progenitors and Erythroblasts Are Decreased in Burn Patients , 2013, Journal of burn care & research : official publication of the American Burn Association.

[8]  F. Costa,et al.  Alpha-Hemoglobin-Stabilizing Protein: An Erythroid Molecular Chaperone , 2011, Biochemistry research international.

[9]  J. Godbold,et al.  TRANSPLANTATION AND CELLULAR ENGINEERING: Compensated variability in the expression of globin‐related genes in erythroblasts generated ex vivo from different donors , 2009, Transfusion.

[10]  M. Weiss,et al.  Chaperoning erythropoiesis. , 2009, Blood.

[11]  Andrew J. Gow,et al.  An erythroid chaperone that facilitates folding of α-globin subunits for hemoglobin synthesis , 2007 .

[12]  M. Simonen,et al.  Upregulation of alpha globin promotes apoptotic cell death in the hematopoietic cell line FL5.12 , 2005, Apoptosis.

[13]  Andrew J. Gow,et al.  Molecular Mechanism of AHSP-Mediated Stabilization of α-Hemoglobin , 2004, Cell.

[14]  S. Saad,et al.  Expression of α-hemoglobin stabilizing protein gene during human erythropoiesis , 2004 .

[15]  Pranela Rameshwar,et al.  Bone Marrow Failure Following Severe Injury in Humans , 2003, Annals of surgery.

[16]  G. Blobel,et al.  An abundant erythroid protein that stabilizes free α-haemoglobin , 2002, Nature.

[17]  G. Miele,et al.  A novel erythroid-specific marker of transmissible spongiform encephalopathies , 2001, Nature Medicine.

[18]  Edwin A. Deitch,et al.  A Serial Study of the Erythropoietic Response to Thermal Injury , 1993, Annals of surgery.