Ion channels in the thick ascending limb of Henle's loop

Abstract

The thick ascending limb of Henle's loop (TAL) is polarized with respect to its conductances. The luminal membrane contains a K+ conductance which is made up by the synchronous operation of 60- to 80-pS K+ channels. The basolateral membrane contains a chloride conductance. This conductance corresponds most likely to a 30- to 60-pS Cl- channel present in this membrane. Our knowledge on the properties of the K+ channels of these cells has been increased rapidly by patch clamp studies: these K+ channels are inwardly rectifying. They are highly selective for K+ over Na+, Li+ and many other cations. They do not conduct Rb+, Cs+, NH+4 or other larger cations. In fact, all these three cations as well as choline, tetraethylammonium, lidocaine, verapamil, diltiazem, quinine, quinidine and Ba2+ inhibit these K+ channels. As apparent from kinetic studies the mechanisms of inhibition are different for the various blockers. The TAL K+ channels are downregulated by increasing cytosolic Ca2+ activity. Cytosolic adenosine trisphosphate (ATP) has a similar effect. This ATP inhibition is Ca2+ dependent. The affinity to ATP is augmented by increasing Ca2+. Cytosolic alkalinity increases the open probability of these channels, and cytosolic acidification has the opposite effect. This pH dependence is very marked. A change by 0.2 pH units leads to a more than twofold change in the open-channel probability. The basolateral chloride conductance reflects the properties of an outwardly rectifying 30- to 60-pS Cl- channel. This channel behaves, in many respects, like the Cl- channels of a multitude of Cl- transporting epithelia. It is characterized by two open and two closed states. It is highly selective for Cl- as compared with larger anions, and it is inhibited reversibly by Cl- channel blockers such as 5-nitro-2-(3-phenylpropylamino)-benzoate.