Incorporation of 14C-amino acids by malarial plasmodia ( Plasmodium lophurae) : VI. Changes in the kinetic constants of amino acid transport during infection

Abstract

The majority (10 of 17) of amino acids tested entered the mature duck erythrocyte by a saturable, non-uphill transport system, whereas for the erythrocyte-free malarial parasite, Plasmodium lophurae, the converse was true: most amino acids entered the parasite by simple diffusion. Only five amino acids (glutamic and aspartic acids, cysteine, lysine, arginine) showed mediated entry into P. lophurae. The pattern of mediated amino acid transport into the duck erythrocyte was altered upon infection, e.g., either entry was by diffusion or there was a reduced affinity for the amino acid. Transport characteristics similar to those found in the malaria-infected erythrocyte were produced by treating normal duck red cells with a cell-free extract of malaria-infected erythrocytes and quinine (a depressor of red cell ATP). It is suggested that depletion of host cell ATP as well as elaboration of as yet unidentified substances by the parasite promote the changes in permeability seen in the malaria-infected cell.