Potassium fluxes across the blood brain barrier of the cockroach, Periplaneta americana

Kocmarek, Andrea L.; O’Donnell, Michael J.

Potassium fluxes across the blood brain barrier of the cockroach, Periplaneta americana

2011

Kocmarek, Andrea L. | O’Donnell, Michael J.

Potassium fluxes across the blood–brain barrier of the cockroach Periplaneta americana were measured using the scanning ion-selective microelectrode technique. In salines containing 15mM or 25mMK⁺, an efflux of K⁺ from the ganglia of isolated nerve cords was counterbalanced by an influx across the connectives. Metabolic inhibition with CN⁻ resulted in an increase in K⁺ efflux across both the ganglia and the connectives. Depletion of K⁺ by chilling the nerve cords in K⁺-free saline was associated with subsequent K⁺ influx across the connectives in K⁺-replete saline at room temperature. There were dramatic increases in K⁺ efflux across both ganglia and connectives when the nerve cords were exposed to the pore-forming antibiotic amphotericin B. K⁺ fluxes across the ventral nerve cord were also altered when paracellular leakage was augmented by transient exposure to 3M urea. K⁺ efflux was reduced by the K⁺ channel blockers Ba²⁺ and tetraethylammonium or by exposure to Ca²⁺-free saline and K⁺ efflux from the ganglia was increased by addition of ouabain to the bathing saline. The results provide direct support for a model proposing that K⁺ is cycled through a current loop between the ganglia and the connectives and that both the Na⁺/K⁺-ATPase and K⁺ channels are implicated in extracellular K⁺ homeostasis within the central nervous system.

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