Abstract
Auxiliary subunits are often needed to tailor K+ channel functional properties and expression levels. Many auxiliary subunits have been identified for mammalian Slo1, a high-conductance K+ channel gated by voltage and Ca2+. Experiments with heterologous expression systems show that some of the identified Slo1 auxiliary subunits can also regulate other Slo K+ channels. However, it is unclear whether a single auxiliary subunit may regulate more than one Slo channel in native tissues. BKIP-1, an auxiliary subunit of C. elegans SLO-1, facilitates SLO-1 membrane trafficking and regulates SLO-1 function in neurons and muscle cells. Here we show that BKIP-1 also serves as an auxiliary subunit of C. elegans SLO-2, a high-conductance K+ channel gated by membrane voltage and cytosolic Cl− and Ca2+. Comparisons of whole-cell and single-channel SLO-2 currents in native neurons and muscle cells between worm strains with and without BKIP-1 suggest that BKIP-1 reduces chloride sensitivity, activation rate, and single-channel open probability of SLO-2. Bimolecular fluorescence complementation assays indicate that BKIP-1 interacts with SLO-2 carboxyl terminal. Thus, BKIP-1 may serve as an auxiliary subunit of SLO-2. BKIP-1 appears to be the first example that a single auxiliary subunit exerts opposite effects on evolutionarily related channels in the same cells.
Highlights
The Slo family of K+ channels in mammals include Slo[1] (BK channel), Slo2.1 (Slick), Slo2.2 (Slack), and Slo[3]
BKIP-1 was initially identified as an auxiliary subunit of SLO-124
We observed a strong inhibitory effect of BKIP-1 on SLO-2 macroscopic currents in inside-out patches. These observations raised the possibility that BKIP-1 is a dual regulator of SLO-1 and SLO-2 with bidirectional effects in vivo
Summary
The Slo family of K+ channels in mammals include Slo[1] (BK channel), Slo2.1 (Slick), Slo2.2 (Slack), and Slo[3]. The nematode Caenorhabditis elegans (C. elegans) has two Slo family members: SLO-1 and SLO-2, which are orthologues of mammalian Slo[1] and Slo[2], respectively Both channels are expressed in neurons and muscle cells but they differ in physiological functions. BKIP-1 (BK channel interacting protein-1), a single pass membrane protein, is an auxiliary subunit of SLO-1 in C. elegans[24] It elevates the half-maximal voltage for activation (V50) and slows activation rate of SLO-1 at lower [Ca2+] but reduces the V50 and shows no obvious effect on activation rate at higher [Ca2+]24. BKIP-1 causes significant decreases in SLO-2 apparent Cl− and voltage sensitivities, activation rate, and single-channel open probability These effects of BKIP-1 on SLO-2 are in contrast to those of BKIP-1 on SLO-124, suggesting that a single auxiliary subunit may disparately regulate two different Slo channels within the same cells. The identification of BKIP-1 as regulators of both SLO-1 and SLO-2 reveals a new aspect of versatility of auxiliary/regulatory subunits in Slo channel functions
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