MOLECULAR MECHANISM OF HEMOLYTIC ANEMIA IN HOMOZYGOUS HEMOGLOBIN C DISEASE: ELECTRON MICROSCOPIC STUDY BY THE FREEZE-ETCHING TECHNIQUE

doi:10.1084/jem.130.3.443

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MOLECULAR MECHANISM OF HEMOLYTIC ANEMIA IN HOMOZYGOUS HEMOGLOBIN C DISEASE : ELECTRON MICROSCOPIC STUDY BY THE FREEZE-ETCHING TECHNIQUE

Lawrence S. Lessin M.D.¹, Wallace N. Jensen M.D.¹, and Eric Ponder M.D.¹

¹ From the Institut de Pathologie Cellulaire, Kremlin Bicetre, France, and the Department of Medicine, Ohio State University College of Medicine, Columbus, Ohio

Erythrocytes from a patient with homozygous hemoglobin C diseasewere subjected to gradual osmotic dehydration by incubationin hypertonic saline. Serial observations of these cells beforeand after 4 and 12 hr incubation were carried out by means ofinterference, Soret absorption, polarization microscopy, andthe electron microscope employing the freeze-etching technique.Light microscopic studies showed a progressive contraction ofcellular contents into central masses which, after 12 hr dehydration,formed birefringent intracellular hemoglobin crystals in 50–75%of the cells. Electron microscopic study of freeze-etched replicasof these cells at 0, 4, and 12 hr of dehydration reveals progressiveaggregation, alignment, and crystallization of hemoglobin molecules.Molecular aggregation found in C-C cells prior to osmotic dehydrationwas not seen in normal erythrocytes. Aggregation and packingvaried from cell to cell. Reticulocytes showed a loosely packedaggregate mesh-work; older cells showed variation of molecularpacking, which appeared tightest in cells corresponding to microspherocytes.With further loss of intracellular water, aggregates coalescedinto patterns of tighter molecular packing with small regionsof alignment, and, finally, crystallization occurred. Hemoglobinmolecules measuring 70 A in diameter were readily identifiedwithin the period patterns of intracellular crystals. Thesefindings suggest that the hemoglobin C molecules within C-Cerythrocytes exist in an aggregated state. As the cell ages,intracellular water is lost and intermolecular distance decreases,hemoglobin C molecules polymerize into intracellular crystals.This pathological behavior of hemoglobin C is associated witha charge alteration conferred by the substitution of beta-6-lysinefor glutamic acid on the external surface in the A-helix regionof the beta-chain of the molecule, possibly increasing intermolecularattraction. Molecular aggregation accounts for the increasedrigidity of C-C cells which leads to accelerated membrane andwater loss with resultant microspherocyte formation. The microspherocyte,with highest intracellular hemoglobin concentration, rapidlyundergoes intracellular crystallization, and is sequesteredand destroyed by reticuloendothelial elements.

Submitted on March 12, 1969

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