Tetrameric assembly of KvLm K ⁺ channels with defined numbers of voltage sensors

Abstract: Voltage-gated K þ (Kv) channels are tetrameric assemblies in which each modular subunit consists of a voltage sensor and a pore domain. KvLm, the voltage-gated K þ channel from Listeria monocytogenes, differs from other Kv channels in that its voltage sensor contains only three out of the eight charged residues previously implicated in voltage gating. Here, we ask how many sensors are required to produce a functional Kv channel by investigating heterotetramers comprising combinations of full-length KvLm (FL) a… Show more

“…In line with these experimental measurements, a recent all-atom molecular simulation suggested that full outward movement of S4 in one or two VSDs is insufficient to open the pore [1]. The experiment in the prokaryotic KvLm channels further revealed that three VSDs are required to promote classical voltage-dependent channel opening at depolarizing potentials [16]. In our study, either one or two VSDs are sufficient to open the channels in a voltage-dependent manner.…”

“…The work on KvLm channels shed new light on the roles of VSD. However, as it is a prokaryotic channel, the VSD of KvLm contains only three of the eight conserved charged residues known to be deterministic for voltage sensing in eukaryotic Kv channels, which may impede the generalization of these findings to eukaryotic Kv channels [15,16]. To the best of our knowledge, similar protein engineering strategies (physically remove VSDs) have not been successful in eukaryotic Kv channels.…”

“…Notably, the study on KvLm channels revealed that pore only module can populate at open state, suggesting that the pore of Kv channels may also reside in between closed-activated and open state [16]. The gating of the Kv channel pore involves both the lower bundle-crossing gate at the cytoplasmic entrance to the channel and the upper gate at the selectivity filter close to the outer mouth of the channel [54,55].…”

“…KvLm is a prokaryotic Kv channel from Listeria monocytogenes, characterized by high structural independence of the VSDs and the pore domain [15]. Taking advantage of this unique property, functional heteromers of the KvLm pore domain, assembled with one, two, or three VSDs, were produced by in vitro transcription and translation [16]. The results from this study suggested that three VSDs are sufficient to gate the channel, but all four sensors are required to close the channel [16].…”

“…Taking advantage of this unique property, functional heteromers of the KvLm pore domain, assembled with one, two, or three VSDs, were produced by in vitro transcription and translation [16]. The results from this study suggested that three VSDs are sufficient to gate the channel, but all four sensors are required to close the channel [16]. The work on KvLm channels shed new light on the roles of VSD.…”

Grafting voltage and pharmacological sensitivity in potassium channels

“…In line with these experimental measurements, a recent all-atom molecular simulation suggested that full outward movement of S4 in one or two VSDs is insufficient to open the pore [1]. The experiment in the prokaryotic KvLm channels further revealed that three VSDs are required to promote classical voltage-dependent channel opening at depolarizing potentials [16]. In our study, either one or two VSDs are sufficient to open the channels in a voltage-dependent manner.…”

“…The work on KvLm channels shed new light on the roles of VSD. However, as it is a prokaryotic channel, the VSD of KvLm contains only three of the eight conserved charged residues known to be deterministic for voltage sensing in eukaryotic Kv channels, which may impede the generalization of these findings to eukaryotic Kv channels [15,16]. To the best of our knowledge, similar protein engineering strategies (physically remove VSDs) have not been successful in eukaryotic Kv channels.…”

“…Notably, the study on KvLm channels revealed that pore only module can populate at open state, suggesting that the pore of Kv channels may also reside in between closed-activated and open state [16]. The gating of the Kv channel pore involves both the lower bundle-crossing gate at the cytoplasmic entrance to the channel and the upper gate at the selectivity filter close to the outer mouth of the channel [54,55].…”

“…KvLm is a prokaryotic Kv channel from Listeria monocytogenes, characterized by high structural independence of the VSDs and the pore domain [15]. Taking advantage of this unique property, functional heteromers of the KvLm pore domain, assembled with one, two, or three VSDs, were produced by in vitro transcription and translation [16]. The results from this study suggested that three VSDs are sufficient to gate the channel, but all four sensors are required to close the channel [16].…”

“…Taking advantage of this unique property, functional heteromers of the KvLm pore domain, assembled with one, two, or three VSDs, were produced by in vitro transcription and translation [16]. The results from this study suggested that three VSDs are sufficient to gate the channel, but all four sensors are required to close the channel [16]. The work on KvLm channels shed new light on the roles of VSD.…”

Grafting voltage and pharmacological sensitivity in potassium channels

Functional characterization of Kv11.1 (hERG) potassium channels split in the voltage-sensing domain

The PLB measurement for the connector in Phi29 bacteriophage reveals the function of its channel loop