Membrane charge-associated heterogeneity of B-lymphocytes from human peripheral blood as reflected by cell partition in two-polymer aqueous phases

Abstract

Aqueous solutions of dextran and of poly-(ethylene glycol) when mixed give rise to immiscible aqueous-aqueous two-phase systems which, when buffered and rendered isotonic, are suitable for the separation by partition of cells based on subtle differences in selected membrane surface properties. Mononuclear cells from human peripheral blood were obtained on a Hypaque-Ficoll cushion and were then separated on the basis of size on a velocity sedimentation gradient at unit gravity. Lymphocytes obtained in this manner were subjected to countercurrent distribution (CCD) in a phase system which reflects membrane surface charge-associated properties. Cells in the different cavities of the extraction train were examined by fluorescent techniques utilizing goat antihuman IgM and anti-human IgD (either separately or mixed) and for their ability to form rosettes with a sheep erythrocyte-antibody-complement (EAC) complex. Results indicate that the highest percentage of fluorescing cells and EAC rosetting cells are under the left part of the distribution. B-lymphocytes are highly heterogeneous and consist of at least two distinct sub-populations not attributable to a difference in surface immunoglobulins. Experimental variation and error preclude, at present, a statement relating to the partial separability of IgM- and IgD-bearing cells. Conversely, the differences in surface charge-associated properties of IgM- and IgD-bearing cells, if they exist, must be small.