Effect of concanavaline A on intracellular K+ and Na+ concentration and K+ transport of human lymphocytes

Energy transfer efficiency on lymphocytes of leukemia patients measured by fluorescence polarization

Measurements of fluorescence resonance energy transfer efficiency (E), via fluorescence polarization, have been applied to distinguish between chronic lymphocytic leukemia (CLL) patients and healthy persons. Capping of Concanavalin-A receptors is more pronounced in normal lymphocytes than in those of CLL patients. Membrane capping decreases the distance between donor and acceptor molecules embedded in the membrane (r), and thus increases the monitored energy transfer efficiency (E approximately 1/r6). Blood samples of 10 healthy subjects and 16 CLL patients were examined. In the healthy subjects, the mean E value for capped lymphocytes was 19 +/- 3, whereas in the CLL patients it was significantly lower (8 +/- 5) (P < 0.01).

Intracellular K+, Na+ and Cl- concentrations and membrane potential in human monocytes

The relationship between the resting membrane potential and the intracellular ionic concentrations in human monocytes was investigated. Cell volume, cell water content, and amount of intracellular K+, Na+, and Cl- were measured to determine the intracellular concentrations of K+ (Ki), Na+ (Nai) and Cl- (Cli) of monocytes, and of lymphocytes and neutrophils. Values found for monocytes were similar to those for neutrophils, i.e., cell volumes were 346 and 345 micron3, respectively, cell water content 78%, and Ki, 128 and 125, Nai, 24 and 26, and Cli, 102 and 103 mmol/l cell water, respectively. Lymphocytes, however, had different values: 181 micron3 cell volume, 77% cell water content, and for Ki, Nai, and Cli, 165, 37, and 91 mmol/l cell water, respectively. The resting membrane potential of cultured human monocytes (range -30 to -40 mV), determined by measurement of the peak potential occurring within the first milliseconds after microelectrode entry, was most dependent on extracellular K+, followed by Cl-, and Na+. The membrane permeability ratio of Cl- to K+ was estimated by use of the constant field equation to be 0.23 (range 0.22 to 0.30).

Amiloride-induced suppression of lymphocyte proliferation: inhibition of IL 2 receptor expression after blockade of early sodium influx

Increased rates of monovalent cation fluxes are implicated in the activation of lymphocytes by mitogens. Our report shows that amiloride and dimethylamiloride, two inhibitors of the Na+/H+ antiport, dose dependently prevent the proliferation of mitogen-activated human peripheral blood lymphocytes. The action of these drugs follows several mechanisms, since their inhibitory effect can be reversed by extensive washing when they are used at low concentrations (150 microM for amiloride, 40 microM for dimethylamiloride), while at higher non cytotoxic concentrations this reversibility is no longer observed. We have studied the mechanism whereby amiloride inhibits the blastogenesis by measuring their effect on: 1) IL 2 production, 2) acquisition of IL 2 responsiveness and induction of IL 2 receptors, 3) IL 2-induced proliferation. Unlike the expression of IL 2 receptors, IL 2 production and IL 2-dependent proliferation were not inhibited by the low drug concentrations which indeed prevent blastogenesis. Moreover under these conditions, an enhanced accumulation of IL 2 was observed in the supernatants of stimulated cells. These results show that the drugs interact differently with the different cell populations involved in T cell proliferation: increase of an amiloride-dependent sodium influx is an obligatory step required to induce the early increase of the ouabain-dependent potassium influx which is needed for the expression of IL 2 receptors. On the contrary, the influx of potassium necessary for the IL 2-dependent proliferation does not seem to be controlled by the amiloride-dependent sodium flux.

Mechanism whereby ouabain inhibits human T lymphocyte activation: effect on the interleukin 2 pathway

Through the blockade of the Na-K-ATPase, ouabain inhibits several biochemical and biological events leading to the proliferation of activated lymphocytes. Since we already found that interleukin 1 production was not prevented by ouabain, we investigated by which mechanism this drug inhibits mitogen-induced human T lymphocyte activation, with respect to the interleukin 2 (IL 2) pathway. Our data revealed that at concentrations lower than 0.2 microM, IL 2 accumulation was not reduced in ouabain-treated cultures, even when cell proliferation was completely inhibited (0.1-0.2 microM ouabain). Moreover, in this concentration range, ouabain stimulated in a dose-dependent manner the accumulation of IL 2 in the supernatant of Con A-stimulated lymphocytes (optimum for 0.05 microM corresponding to half inhibition of lymphocyte proliferation). Such an effect, which appears correlated to the inhibition of Na-K-ATPase, suggests a failure of the cell to utilize IL 2. At concentrations higher than 0.3 microM, ouabain inhibited both lymphocyte proliferation and IL 2 production. These observations show that the glycosteroid interacts differently with the different cell populations involved in the cascade of reactions leading to cell proliferation, and suggest that the mitogenic inhibition resulting from the blockade of Na-K-ATPase is not related to the blockade of IL 2 production. On the other hand, we observed that: ouabain inhibited the expression of the receptors for IL 2, an obligatory step in lymphocyte proliferation; ouabain blocked the proliferation of an IL 2 sensitive human T cell line; in both cases the inhibition paralleled that of lymphocyte proliferation. Our data suggest that the essential steps of lymphocyte proliferation in which Na-K-ATPase-dependent K+ fluxes play a critical role are the expression of IL 2 receptors and the IL 2-dependent proliferative step.

Concanavalin A increases spontaneous beat rate of embryonic chick heart cell aggregates

The plant lectin concanavalin A (Con A), at concentrations of 5-200 micrograms/ml, induced a twofold to fivefold increase in spontaneous beat rate of cultured aggregates of ventricular cells from seven-day chick embryos. This response was time, dose, and temperature dependent and was accompanied by a decrease in transmembrane potential. It could be blocked or reversed by alpha-methyl-D-mannoside but was not reversed by dilution alone. Binding of the lectin occurred in the cold, but a temperature-dependent process was also necessary to produce the response. Divalent (succinyl) Con A did not cause a beat rate increase. Whole heart aggregates responded similarly but less intensely than ventricular aggregates. Atrial aggregates, and whole heart aggregates treated with 5 microgram/ml of Con A, produced a biphasic chronotropic response, first decreasing then increasing their beat rates. These results suggest that saccharide-bearing macromolecules on the heart cell surface play a role in regulating spontaneous beat rate.

The effect of oligopeptides on the C3b receptor-mediated functions of rat macrophages

Effects of various substances known to influence macrophage functions on the adherence of C3b-coated sheep erythrocytes (E-C3b) and their phagocytosis by elicited rat peritoneal macrophages (PM) has been studied. Different oligopeptides (OP) having a chemotactic effect, such as tuftsin, angiotensin II (At II) and the OP-fraction of a lymphokine preparation (LK-OP) increased both adherence and phagocytosis of E-C3b in a concentration-dependent fashion. In contrast, neither substances influencing the membrane cation transport nor prostaglandins (PG) and cyclic nucleotides significantly changed the C3b receptor (C3bR)-dependent effector functions of macrophages. Enhanced functions of the C3bR were not associated with an increased capability of PMs for intracellular killing of Candida albicans.

Development and properties of malignant lymphoma induced by magnesium deficiency in rats

Female wistar rats were fed on an Mg-deficient diet. After 8 to 10 weeks, the thymus glands were strongly degenerated and the number of lymphocytes was reduced, especially in the cortex. Thymus degeneration was associated with a decreased rate of DNA, RNA, and protein biosynthesis and necrosis and phagocytosis of lymphocytes. The degeneration was normalized after feeding on an Mg-rich diet. After 10 or 11 weeks of Mg deficiency, local cell proliferations of immature lymphocytes with a great number of free ribosomes were found in some thymus glands. The local cell proliferations developed into infiltrating tumors without metastases. In lymphoma cells the Na+ and Ca2+ content, the turnover of cellular Na+ and K+, and the aerobic production of CO2 and lactate were increased.