A novel method for mean cell volume estimation

Summary A novel method is described for the estimation of the mean cell volume of cell populations grown in suspension. The cells are filtered onto a nitrocellulose filter to form a cylindrical pellet which is embedded in epoxy resin. Using estimates of pellet height and radius, the number of cells in the pellet and of the volume density of the cells in the pellet, it is possible to produce an unbiased estimate of the mean cell volume. This method is compared, using cell suspensions of the blood parasite Trypanosoma brucei , with mean cell volume estimation using a Coulter channellizer. A Coulter channellizer was also used to compare the mean cell volume of living trypanosomes with that of aldehyde‐fixed populations, and the values obtained were compared with those obtained using the new method. The estimated mean cell volume of a T. brucei clone was used to derive values from volume densities obtained by point and intersection counts for the absolute volumes of the flagellar pocket, the nucleus, and endocytic organelles containing internalized horseradish peroxidase and transferrin‐gold after 30‐min incubations at 310 K. Estimated values for the surface area of the flagellar pocket and the surface area of a cell were also obtained. From known data on the total amount of variant surface glycoprotein molecules per cell and the known packing density of membrane proteins, it was estimated that approximately 80% of the molecules must reside in intracellular compartments. It was estimated that the equivalent of 5% of the surface membrane may be internalized per minute, an amount which is almost the size of the entire flagellar pocket membrane.