A dual effect of formaldehyde on the inwardly rectifying potassium conductance in skeletal muscle.

1. The inwardly rectifying potassium conductance of the membrane of frog sartorius muscle fibres is greatly reduced by treatment of muscles for 30 min with a solution containing formaldehyde (10 mM). 2. A transient increase in the conductance of the inward rectifier is observed early during formaldehyde action. 3. Analysis of the biphasic time course of the conductance changes, as determined under controlled voltage conditions, suggests that treatment with formaldehyde alters simultaneously, but in opposite ways, two factors that determine the conductance of the inward rectifier. 4. The linear component of the current-voltage relation, which dominates the relation at strongly positive potentials, is not affected while the above changes occur. But on prolonged exposure to formaldehyde the leak conductance increases. 5. The effects of formaldehyde on the inward rectifier are reversible on prolonged superfusion with normal Ringer solution. 6. The slight inward rectification remaining after most of the extracellular K is replaced by Rb, is similarly reduced by treatment with formaldehyde. 7. The results are interpreted in terms of the chemical properties of formaldehyde and present views of the mechanisms of inward rectification.