Sickle cell disease is probably the first known assembly disease, and its mechanism has been extensively studied. It arises because of the expression of a mutant hemoglobin that can polymerize, and which does so by a double nucleation mechanism that is now seen to operate in other diseases. The polymers so formed lead to circulatory obstruction in the microcirculation. The accuracy of the description that has been developed is sufficient to describe precisely the impact of molecules that cannot join polymers but that still crowd the solution, including fetal hemoglobin. The one approved drug, hydroxyurea, is thought to achieve its benefit by enhancing the production of fetal hemoglobin, but the effects of the drug on polymerization exceed what the added fetal hemoglobin can accomplish. While some possible answers to this mystery are suggested, no mechanism has been conclusively established for the remarkably efficacy of the one drug available to treat this disease.
Keywords: Assembly; Hydroxyurea; Nucleation.
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