Abstract
Internalisation of CD4 is a well-known phenomenon. It occurs in the presence of phorbol myristate acetate (PMA), TPA or gangliosides and is usually completed within 30 min. Here, we describe an internalisation of CD4 molecules induced by low concentrations of high molecular weight dextran sulfate (
M
r 500
kDa) which differs from the classical mode in several ways. Internalisation is demonstrated by flow cytometry after simultaneous and consecutive staining of extracellular and internalised CD4 molecules and by visualisation by electron micrographs. A simple blockage of antibody binding sites on the CD4 molecule (epitope masking) by DS500, as widely believed, is definitely not responsible for the observed effects. DS500-mediated internalisation is a slow and energy-dependent process, where CD4 but not CD 2, 3, 8, 16, 56 and HLA-DR molecules are involved. The reaction reveals a characteristic time and concentration dependency. It does not require activation of protein kinase C (PKC) and cannot be inhibited by cytochalasin D. These results provide some more insight in the behavior of CD4 on lymphoid cell surfaces in response to high molecular weight polyanions such as dextran sulfate.