An allogeneic reaction among brain cortex cells (mixed reaction) was demonstrated previously by H-2 alloantigen- induced uncoupling of oxidative metabolism (Kovářů Med. Biol. 58: 273, 1980). In the present study we have demonstrated that alloantigen already increased cell surface Na + ,K+-ATPase activity after 100 min when the enzyme activation was highest at Mg2+/ATP ratio 4: 1. The allogeneic cell reaction was accompanied by an elevation of membrane lipid fluidity and probably also by a thermotropic lipid phase transition which might influence the membrane lipid-dependent Na+,K+-ATPase activity, while Mg2+-ATPase remained unaffected. Furthermore, the effects of proteins and peptides released into the supernatant during the allogeneic reaction were analyzed in brain cortex cells. One of the isolated active peptide fractions, Fa (m.w. lower than 2.5 kD), was able to enhance Na+,K+-ATPase activity as well as to block K+-evoked O2 uptake by brain cortex cells. Thus the Fa fraction simulated primary allorecognition events. The data indicate that various brain cell surface domains were influenced by a regulatory peptide fraction of the cytokine type during the early phase of allogeneic reaction. Allorecognition among brain cortex cells is directed against functionally important metabolic reactions.
We tested the hypothesis considering the role of hypothalamic-pituitary-thyroid axis (HPT), L-triiodothyronine (L-T3) uptake into erythrocytes, and the role of membrane lipids in the development and treatment of affective disorders. Changes in kinetic parameters (Vmax, maximal velocity and KM, apparent Michaelis constant) of L-T3 uptake into red blood cells (RBCs) and changes in membrane fluidity in a group of 24 patients with major depression were measured before treatment and after 1 month of treatment with citalopram. Parameters Vmax and KM, as well as membrane microviscosity, were significantly increased in depressed patients both before and after treatment in comparison with healthy subjects. We concluded that the function of the membrane transporter for L-T3 in RBC is changed in depression. This change is probably connected with alteration of membrane fluidity and/or transporter–lipid interactions. We did not find any normalization of the measured parameters after 1 month of treatment. The results show the importance of composition and physical properties of the lipid bilayer for transmembrane transport of L-T3 and support the hypothesis that the HPT axis is in depression.