MODIFICATION OF SYSTEM-A AMINO-ACID CARRIER BY DIETHYL PYROCARBONATE

Sodium-dependent alanine transport in plasma membrane vesicles from rat liver was inactivated in a time- and concentration-dependent fashion by prior treatment of membranes with the acylating reagent diethyl pyrocarbonate (DEPC). Both components of Na+/alanine cotransport (systems A and ASC) were inhibited. Exposure of vesicles to p-bromophenacyl bromide and methyl p-nitrobenzenesulfonate, which share with DEPC reactivity against histidine residues, also led to inhibition of alanine transport through systems A and ASC. The presence of Na+ (100 mM NaCl) and L-alanine (10 mM) during exposure of vesicles to DEPC protected against inactivation of system A (but not system ASC) transport activity. This protective effect was specific and required the presence of L-alanine since the presence of L-phenylalanine alone (10 mM) or L-phenylalanine plus Na+ (100 mM NaCl) did not cause any detectable protection. This overall pattern of protection is opposite to that previously found against specific sulfhydryl reagents (i.e. Nethylmaleimide), where protection of system ASC was nearly maximal. The pH profile for DEPC-dependent inhibition of system A transport activity suggests modification of amino acid residue(s) with a pK(r) of approximately 7, most likely histidine(s), in close parallel with the pH dependence of system A transport activity. Our results suggest the presence of critical histidine residues on the system A carrier that may be responsible for the pH dependence of system A transport activity.