The regulation of ammonia uptake in Chara australis

The regulation of ammonia uptake was investigated in internodalcells of the freshwater alga Chara australis. Ammonia uptakewas estimated by monitoring (i) its depletion from the bathingsolution, (ii) the uptake of radiolabelled methylamine, an analogueof ammonia, and (iii) depletion of ammonia in the unstirredlayer with the microelectrode ion-flux estimation technique(MIFE). Distribution of methylamine (¹⁴CH₃NH₃⁺) between thevacuole and cytoplasm was estimated with efflux analysis. Whencells were bathed continuously in solutions containing ammoniaor methylamine, the uptake rates of both amines decreased over12 to 48 h despite the continuing existence of a large electrochemicalgradient favouring influx of the NH⁺₄ and CH₃NH⁺₄ cations. Treatmentwith 1.0 to 10.0 mM MSX, an inhibitor of glutamine synthetase,caused the internal ammonia concentration to rise and reducedthe subsequent uptake of ammonia and methylamine by up to 70%within 2 h. These results suggest that the permease facilitatingNH⁺₄/CH₃NH⁺₄ influx is under feedback or kinetic regulationfrom either internal ammonia or an intermediate of nitrogenassimilation. Treatment with metabolic inhibitors (CCCP, azide and DCMU) andsome weak acids (DMO and butyric acid) for 30 to 60 min inhibitedmethylamine uptake, but the changes in the electrical potentialdifference across the plasma membrane could not account forthe magnitude of inhibition. The rate of cytopiasmic streaming,which is an indicator of the cellular ATP concentration in Chara,was inhibited by many of these treatments. However, under certainconditions of external pH and concentration, butyric acid couldreversibly inhibit ammonia and methylamine uptake without affectingcytoplasmic streaming, demonstrating that a decrease in cytoplasmicATP concentration was not responsible for the inhibition. Theeffect of butyric acid was rapid, causing a 60% inhibition ofuptake in 15 min. We conclude that weak acids can inhibit theNH⁺₄/CH₃NH⁺₄ permease by acidifying the cytoplasm and suggestthat this may also explain the effects of the metabolic inhibitorson ammonia and methylamine uptake. Key words: Ammonia, methylamine, uptake, regulation, Chara