Acanthocyte

Abstract: Acanthocytic red cells in patients with abetalipoproteinemia are morphologically similar to the red cells in spur cell anemia. Fluidity of membrane lipids is decreased in spur cells due to their excess cholesterol content. Acanthocyte membranes have an increased content of sphingomyelin and a decreased content of lecithin. To assess the effect of this abnormality of acanthocyte membrane lipid composition on membrane fluidity, we studied red cells from five patients with abetalipoproteinemia and four obligate heterozygote family members. Membrane fluidity was measured in terms of microviscosity (¯η) at 37°C, assessed by means of the fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene. It was increased from 3.2±0.1 poise in normals to 4.01-4.14 poise in acanthocytes. This was associated with an increase in the sphingomyelin/lecithin ratio from 0.84±0.08 in normals in 1.45-1.61 in acanthocytes. The ¯η of acanthocyte membranes was not influenced by the degree of vitamin E deficiency. Similar changes in ¯η were observed in liposomes prepared from red cell lipids. Heterozygotes had normal sphingomyelin/lecithin ratios and normal values for ¯η. The flow activation energy for viscosity, a measure of the degree of order in the hydrophobic portion of the membrane, was decreased from 8.3 kcal/mole in normal red cells to 7.2 kcal/mole in acanthocytes, indicating that acanthocyte membrane lipids are more ordered. Variations in the sphingomyelin/lecithin mole ratio of liposomes prepared from brain sphingomyelin and egg lecithin with equimolar cholesterol caused similar changes in both ¯η and activation energy. The deformability of acanthocytes, assessed by means of filtration through 3-μm filters, was decreased. These studies indicate that the increased sphingomyelin/lecithin ratio of acanthocytes is responsible for their decreased membrane fluidity. As in spur cells and in red cells enriched with cholesterol in vitro, this decrease in membrane fluidity occurs coincidentally with an abnormality in cell contour and an impairment in cell deformability.

Abstract: The presence of acanthocytosis in peripheral blood smears remains the hallmark of the clinical diagnosis of most neuroacanthocytosis syndromes, such as chorea-acanthocytosis (ChAc) and McLeod syndrome. Genetic analyses and/or specific laboratory tests are available only for a minority of these disorders. Testing for acanthocytosis is hampered by the lack of data on normal amounts of acanthocytes assessed by a standardized method. We report a prospective reader-blinded study designed to establish control values for abnormally shaped erythrocytes in healthy volunteers and patients with movement disorders (MDs) using light microscopic assessment of erythrocyte morphology in standard EDTA and isotonically diluted blood samples. We investigated a total of 100 patients fulfilling clinical criteria of specific MDs, 31 patients with MDs not matching any clinical criteria, and 37 healthy controls. In patients with diagnosed MDs and healthy controls, acanthocytes in dry blood smears were significantly more frequent following isotonic dilution compared with standard EDTA blood. In unfixed wet blood preparations of both EDTA blood and isotonically diluted blood, acanthocyte levels were significantly higher than in standard dry blood smear preparations. There were no statistical differences of acanthocyte levels in all test conditions between diagnosed MDs and healthy volunteers. There was no significant correlation of acanthocyte levels in all blood samples and preparations with age, sex or diagnosis. Thus, normal values were defined as the 99th percentile of combined results of the two groups of volunteers. Diluted blood combined with wet blood preparation showed high specificity (0.98) and the highest sensitivity of all test procedures (all genetically confirmed ChAc patients were detected). The reported method is cheap, readily available, and provides high specificity and sensitivity in respect to clinically relevant acanthocytosis. The use of isotonically diluted blood samples combined with unfixed wet blood preparation with a normal range of <6.3% of total erythrocytes is recommended to search for significant acanthocytosis in movement disorders.

Abstract: Experiments reported in the accompanying paper (1) showed that an abnormally high percentage of red cells from patients with acanthocytosis hemolyze when incubated at 370 or 40 C for 48 hours. This abnormal lysis was inhibited by heparin, supplementary glucose, and additions of normal serum. This report partially identifies the components of normal serum that inhibit such autohemolysis and the lipid composition and autohemolytic behavior of \"older\" and younger cells separated by centrifugation. The implications and interrelationships of these data are discussed.