Flow cytometry is a new method for the characterization of intestinal plasma membrane.

The highly differentiated plasma membrane of rabbit enterocytes constitutes an interesting model for membrane studies. Flow cytometry allows combined measurements of the size of membrane vesicles by light-scatter and fluorescence polarization at a single-particle level. The degree of fluorescence polarization of 1,6-diphenylhexa-1,3,5-triene was determined at 4, 18 and 37 degrees C in the brush-border and basolateral plasma membranes. The fluorescence polarization was considerably higher in brush-border than in basolateral membranes. After incubation with dimethyl sulphoxide, the membrane fluidity decreased in both types of membranes. Moreover, a time-effect study of dimethyl sulphoxide showed changes in fluorescence polarization. Only in brush-border membrane a temporary fluid phase was observed. The different properties of the two membrane domains in relation to the lipid-protein dynamics of enterocytes are discussed.