Abstract

The goal of this proposal is to understand the genesis of dense (dehydrated) sickle red blood cells (RBC). Dense cells are known to make an important contribution to the pathophysiology of sickle cell disease, but a number of issues remain unresolved. In particular, it is not clear why some sickle RBC become dense soon after emerging from the bone marrow, while others become dense slowly or perhaps not at all. Hb F appears to protect cells from becoming dense quickly, and the emergence of Hb F-augmenting therapies makes it important to understand the relationship between Hb F and dense cell formation.
The specific aims of this research are (1) to determine the rate of formation of dense cells in vivo, particularly those which are on the """"""""fast track"""""""" toward becoming dense quickly, (2) to evaluate the cellular factors, e.g. Hb F content, which modulate the rate of cellular dehydration in vivo, (3) to determine the potassium efflux pathways which leads to in vivo dehydration of """"""""fast track"""""""" cells, and (4) to determine whether sickling is a requirement for dense cell formation in vivo. A large amount of information concerning the in vitro properties of density-defined sickle cells is available, but these data are difficult to interpret due to the age obtained, using radioisotopic methods which would not be possible today. The proposed studies utilize two new non-isotopic techniques for studying age-and density-defined sickle RBC. The first takes advantage of the presence of transferrin receptors (TfR) on newly emergent sickle reticulocytes. This marker makes it possible to study a very young, age- matched population of cells in each density fraction. Extensive studies will compare the potassium flux pathways of light and heavy TfR+cells in order to determine which of several candidate pathways may be responsible for """"""""fast track"""""""" cells. Furthermore, TfR+cells will be isolated from density-defined fractions with an immunomagnetic technique directed against TfR, and their Hb F content measured. The second novel technique is the reinfusion of a small volume of biotinylated, reticulocyte-rich light RBC. The biotin on their surface allows subsequent quantitation by flow cytometry and isolation from the circulation with streptavidin- coated magnetic beads. These cells will be used to follow time-dependent in vivo changes, including the rates of formation and removal of dense cells.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL051174-02
Application #
2227746
Study Section
Hematology Subcommittee 2 (HEM)
Project Start
1993-12-01
Project End
1997-11-30
Budget Start
1994-12-01
Budget End
1995-11-30
Support Year
2
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
University of Cincinnati
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
City
Cincinnati
State
OH
Country
United States
Zip Code
45221

  Publications

Yasin, Zahida; Witting, Scott; Palascak, Mary B et al. (2003) Phosphatidylserine externalization in sickle red blood cells: associations with cell age, density, and hemoglobin F. Blood 102:365-70
Holtzclaw, J David; Jiang, Maorong; Yasin, Zahida et al. (2002) Rehydration of high-density sickle erythrocytes in vitro. Blood 100:3017-25
Joiner, C H; Jiang, M; Claussen, W J et al. (2001) Dipyridamole inhibits sickling-induced cation fluxes in sickle red blood cells. Blood 97:3976-83
Joiner, C H; Franco, R S (2001) The activation of KCL cotransport by deoxygenation and its role in sickle cell dehydration. Blood Cells Mol Dis 27:158-64
Franco, R S; Yasin, Z; Lohmann, J M et al. (2000) The survival characteristics of dense sickle cells. Blood 96:3610-7
McGoron, A J; Joiner, C H; Palascak, M B et al. (2000) Dehydration of mature and immature sickle red blood cells during fast oxygenation/deoxygenation cycles: role of KCl cotransport and extracellular calcium. Blood 95:2164-8
Franco, R S; Lohmann, J; Silberstein, E B et al. (1998) Time-dependent changes in the density and hemoglobin F content of biotin-labeled sickle cells. J Clin Invest 101:2730-40
Joiner, C H; Jiang, M; Fathallah, H et al. (1998) Deoxygenation of sickle red blood cells stimulates KCl cotransport without affecting Na+/H+ exchange. Am J Physiol 274:C1466-75
Franco, R S; Thompson, H; Palascak, M et al. (1997) The formation of transferrin receptor-positive sickle reticulocytes with intermediate density is not determined by fetal hemoglobin content. Blood 90:3195-203
Franco, R S; Palascak, M; Thompson, H et al. (1996) Dehydration of transferrin receptor-positive sickle reticulocytes during continuous or cyclic deoxygenation: role of KCl cotransport and extracellular calcium. Blood 88:4359-65

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