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HETEROGENEOUS NUCLEATION AND SICKLE CELL DISEASE

$190,805R01FY2000HLNIH

Drexel University, Philadelphia PA

Investigators

Linked publications & trials

Abstract

DESCRIPTION: Adapted from the investigator s abstract: Sickle cell disease arises from the polymerization of sickle hemoglobin by a double nucleation mechanism involving homogenous nucleation in solution and heterogeneous nucleation into sickle hemoglobin polymer surfaces. While the conceptual features of that mechanism have been validated, its predictive power is limited by the lack of a structural foundation and a flawed description of heterogeneous nucleation in the presence of non-polymerizing molecules. The experimental core of this proposal is to assemble a data base of solubility (csat), homogeneous and heterogeneous nucleation rates and elongation rates, for sickle hemoglobin assembly as a function of solution conditions (T, pH, non-ideality) and for various amino acid substitutions. Sickle hemoglobin mutants with additional amino mutations will primarily be provided by Dr. James Manning of Rockefeller University, and the hemoglobin of the SAD mouse will be provided by Dr. Frank Costantini of Columbia University. These data will be used to test and refine a new structural model for heterogeneous nucleation which are proposed herein. The data will also allow the description of heterogeneous nucleation to be extended to describe gelation in the presence of oxygen, fetal Hb, or other non-polymerizing species. This work will ultimately provide an energetic map of the interactions which create the rigid, vasoocclusive gel.

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