[Effects of diphenyl derivatives on electrophoretic mobility of murine T lymphocytes].

The early changes of electrophoretic mobility (EPM) of murine T lymphocytes induced by structural analogues of amixine-dihydrochloryde 4,4'-bis-[2(diethylamino)ethoxy]diphenyl (compound 1) and dihydrochloryde 2-methoxycarbonil-4,4'-bis-[2(diethylamino)ethoxy]diphenyl (compound 2) were studied by electrophoresis technique. During the interval 0-2 hours all compounds increased the absolute values of EPM in comparison with control. These changes were of the same kind--distinctions were quantitative.

Signal function of potassium channels--clinical aspects.

Potassium (K+) channels are the most diverse class of ion channels, and are important for regulating neuronal excitability and signaling activity in a variety of ways. They are major determinants of membrane excitability, influencing the resting potential of membranes, wave forms and frequencies of action potentials, and thresholds of excitation. Voltage-gated K+ cannels exist not as independent units merely responding to changes in transmembrane potential but as macromolecular complexes able to integrate a plethora of cellular signals that fine tune channel activities.