The Na/K-ATPase regulation by neurotransmitters in ontogeny.

Activity of the Na/K-ATPase from rat brain synaptic membranes is inhibited by NA (noradrenaline). However, during fractionation of cytozole from nerve endings, two non-homogeneous peaks are found (SF(a), 60-100 kD and SF( i ),;10 kD), which influence the Na/K-ATPase activity, both directly and SF(a) NA-dependently. Joint action of NA and synaptic factors (SF(a) and SF(i)) on the Na/K-ATPase, represents a sum of four different processes: 1) NA, without synaptic factors, inhibits the Na/K-ATPase; 2) At low SF(a) concentrations NA-dependent Na/K-ATPase activatory mechanism is evident; 3) At high SF(a) concentrations NA-independent Na/K-ATPase is activated; 4) The low-molecular SF(i) protein inhibits the Na/K-ATPase. Regulation of the Na/K-ATPase activity by NA, SF(a) and SF( i), obtained in similar conditions from two weeks old and one year old rats, is different. In older rats SF(i) is characterized with strong Na/K-ATPase inhibition; in younger rats SF(i) does not change the Na/K-ATPase activity. The NA- and SF(i) -dependent inhibition and activation ratio is different in young and elder rats. In two week olds NA/SF(i) activatory mechanism is stronger, while in one year olds NA-dependent inhibition of the Na/K-ATPase is prevailing. These experimental data indicate that regulation of the Na/K-ATPase activity has an important role in synaptic transmission and that this process has noteworthy, albeit presently unknown, functional importance in integrative activity of the brain.