Gap junctional conductance and permeability are linearly related.

The permeability of gap junctions to tetraethylammonium ions was measured in isolated pairs of blastomeres from Rana pipiens L. and compared to the junctional conductance. In this system, the junctional conductance is voltage-dependent and decreases with moderate transjunctional voltage of either sign. The permeability to tetraethylammonium ions was determined by injecting one cell of a pair with tetraethylammonium and monitoring its changing concentration in the prejunctional and postjunctional cells with ion-selective electrodes. Junctional conductance was determined by current-clamp and voltage-clamp techniques. For different cell pairs in which the transjunctional voltage was small and the junctional conductance at its maximum value, the permeability to tetraethylammonium ions was proportional to the junctional conductance. In individual cell pairs, a reduction in the junctional conductance induced by voltage was accompanied by a proportional reduction in the permeability of the gap junction over a wide range. The diameter of the tetraethylammonium ion (8.0 to 8.5 A, unhydrated) is larger than that of the potassium ion (4.6 A, hydrated), the predominant current-carrying species. The proportionality between the permeability to tetraethylammonium ions and the junctional conductance, measured here with exceptionally fine time resolution, indicates that a common gap junctional pathway mediates both electrical and chemical fluxes between cells, and that closure of single gap junction channels by voltage is all or none.

Changes of the permeability of round window membrane in otitis media.

The effects of endotoxin, exotoxin, and otitis media on the permeability of the round window membrane (RWM) in chinchillas was investigated by detecting tetraethylammonium chloride, applied to the RWM, using a potassium-selective microelectrode in the scala tympani. The RWM, 48 hours following the application of endotoxin or exotoxin, became significantly more permeable to tetraethylammonium chloride than the normal RWM. Two weeks after the obstruction of the eustachian tube, the permeability of the RWM was decreased. These results suggest that bacterial toxins and the consequential migration of chemical inflammatory mediators act as promotive factors of RWM permeability, and that a pathologic thickness of the RWM and the presence of effusion induced by the obstruction of the eustachian tube acts as an inhibitory factor. In the clinical role of RWM permeability in human otitis media, these two factors must be taken into consideration.