Requirements of drug-induced endocytosis by intact human erythrocytes.

Study of drug-induced endocytosis in intact human erythrocytes continues to provide an opportunity for correlating membrane functions such as invagination and fusion with erythrocytic energetics and other determinants of plasma membrane function like Ca++. The studies reported indicate that high concentrations of vinblastine and chlorpromazine can produce endocytic vacuoles, albeit in reduced amounts, even in severely ATP depleted erythrocytes. In contrast, primaquine-induced endocytosis seems definitely dependent upon persistence of erythrocytic ATP stores. The ionophore mediated entry of Ca++ into erythrocytes potentiates primaquine endocytosis, inhibits vinblastine endocytosis, and has no regular effect on chlorpromazine endocytosis. Sodium lactate enhances primaquine endocytosis, probably by causing an increase in the entry of primaquine into erythrocytes. Cytochalasin B neither enhances nor inhibits erythrocytic endocytosis, thereby suggesting that microfibrils or analogues of microfibrils in erythrocytes are not involved in endocytosis. Cyclic nucleotide inhibition of endocytosis is confined to a very high concentration range of nucleotides in the medium. Primaquine and chlorpromazine endocytosis are inhibited by cyclic nucleotides as is vinblastine endocytosis.