We have previously described three different cytochalasin B binding sites in human erythrocyte membranes, a D-glucose-sensitive site (Site I), a cytochalasin E-sensitive site (Site II), and a site (Site III) insensitive to both D-glucose and cytochalasin E. Ligand bindings to each of these sites were considered to be independent (Jung, C., and Rampal, A. (1977) J. Biol. Chem. 252, 5456-5463). However, we have obtained subsequently the following evidence which indicated that an interaction occurs between Sites II and III, and this modulates sensitivity of Site III to the sugar. The displacement of cytochalasin E greatly exceeds the sum of their independent displacements. This ghosts extracted with EDTA or 2,3-dimethylmaleic anhydride at low ionic strength lack Site II activity but retain Site I and III activities, and both of these activities are displaceable by D-glucose alone. This indicated that the removal of Site II from the membrane confers glucose sensitivity to Site III. These observations are consistent with a model that Sites II and III in the membrane exist in a close association through which unliganded Site II maintains the glucose insensitivity of Site III, and once site II is liganded or removed by extraction this association is disrupted and Site III becomes glucose-sensitive. The ghosts extracted with Triton X-100 retain a cytochalasin B binding activity similar to that of site II (Kd = 1.8 X 10(-7) M, cytochalasin E-sensitive, glucose-insensitive), whereas a binding activity similar to that of Site I (Kd = 4 X 10(-7) M, cytochalasin E-insensitive, glucose-sensitive) is recovered in the Triton extract. A cytochalasin B binding activity similar to that of Site II is solubilized by EDTA at low ionic strength.