Barium modifies the concentration dependence of active potassium transport by insect midgut

Abstract

Summary The rate of active K⁺ transport by the isolated lepidopteran midgut shows a rectangular hyperbolic relation to [K⁺] over the range 20 to 70mm K⁺ in the absence of any divalent cation. Addition of Ba⁺⁺ to the hemolymph (K⁺ uptake) side introduces a linear component to the concentration dependence, such that active K⁻ transport is decreased at [K⁺] of 55mm or less, but increased transiently at higher [K⁺]. As [Ba⁺⁺] is increased over the range 2 to 8mm the linear component increases and the saturating component decreases; in 8mm Ba⁺⁺ the concentration dependence is dominated by the linear component. The effect of Ba⁺⁺ cannot easily be accounted for by simple competition with K⁺ for basal membrane uptake sites. Similar effects might be exercised by other alkali earth cations, since the concentration dependence of active K⁺ transport possesses a substantial linear component in solutions containing 5mm Ca⁺⁺ and 5mm Mg⁺⁺ (the alkali earth metal concentrations of standard lepidopteran saline).