Kv Channel Ancillary Subunits: Where Do We Go from Here?

Abbott, Geoffrey W.

doi:10.1152/physiol.00005.2022

Cited by 10 publications

(10 citation statements)

References 245 publications

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“…The biophysical, pharmacological and trafficking properties of Kv7 channels are also dictated by association with proteins encoded by the KCNE gene family (KCNE1-5, Abbott, 2020 ; 2022 ). The best studied of Kv7-KCNE interactions is Kv7.1 and KCNE1, which constitute channel responsible for the slowly activating late component of ventricular and atrial action potential repolarisation ( Barhanin et al, 1996 ).…”

Section: Introductionmentioning

confidence: 99%

“…The best studied of Kv7-KCNE interactions is Kv7.1 and KCNE1, which constitute channel responsible for the slowly activating late component of ventricular and atrial action potential repolarisation ( Barhanin et al, 1996 ). In this case the KCNE1 protein interacts with the voltage-sensor domain and slows channel opening ( Nakajo and Kubo, 2007 ; Abbott, 2022 ). However, Kv7.1 also associates with KCNE2 and KCNE3 in epithelial cells and here the channel loses time-dependent properties as the voltage-sensor becomes locked by the interleaving of the KCNE proteins ( Abbott, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

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G protein βγ regulation of KCNQ-encoded voltage-dependent K channels

Stott,

Greenwood

2024

Front. Physiol.

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The KCNQ family is comprised of five genes and the expression products form voltage-gated potassium channels (Kv7.1–7.5) that have a major impact upon cellular physiology in many cell types. Each functional Kv7 channel forms as a tetramer that often associates with proteins encoded by the KCNE gene family (KCNE1-5) and is critically reliant upon binding of phosphatidylinositol bisphosphate (PIP2) and calmodulin. Other modulators like A-kinase anchoring proteins, ubiquitin ligases and Ca-calmodulin kinase II alter Kv7 channel function and trafficking in an isoform specific manner. It has now been identified that for Kv7.4, G protein βγ subunits (Gβγ) can be added to the list of key regulators and is paramount for channel activity. This article provides an overview of this nascent field of research, highlighting themes and directions for future study.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

G protein βγ regulation of KCNQ-encoded voltage-dependent K channels

Stott,

Greenwood

2024

Front. Physiol.

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“…For example, the α-subunits of the voltage-gated L-type calcium channel (Ca v 1.1-1.4) co-assemble with α2δ, β and/or γ subunits (5, 6). The homotetrameric α-subunits of the voltage-gated potassium channel K v 4.2 can further complex with KChIP1 and DPP6S as dodecamer (7, 8). Proper assembly of such ion channel complexes is crucial for cellular homeostasis and strictly regulated to achieve appropriate channel density and function in the plasma membrane (1).…”

Section: Introductionmentioning

confidence: 99%

A CUG-initiated CATSPERθ functions in the CatSper channel assembly and serves as a checkpoint for flagellar trafficking

Huang¹,

Miyata

Wang³

et al. 2023

Preprint

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Calcium signaling is critical for successful fertilization. In spermatozoa, calcium influx into the sperm flagella mediated by the sperm specific CatSper calcium channel is necessary for hyperactivated motility and male fertility. CatSper is a macromolecular complex and is repeatedly arranged in zigzag rows within four linear nanodomains along the sperm flagella. Here, we report that theTmem249-encoded transmembrane domain containing protein, CATSPERθ is essential for the CatSper channel assembly during sperm tail formation. CATSPERθ facilitates the channel assembly by serving as a scaffold for a pore forming subunit CATSPER4. CATSPERθ is specifically localized at the interface of a CatSper dimer and can self-interact, suggesting its potential role in CatSper dimer formation. Male mice lacking CATSPERθ are infertile because the sperm lack the entire CatSper channel from sperm flagella, rendering sperm unable to hyperactivate, regardless of their normal expression in the testis. In contrast, genetic abrogation of any of the other CatSper transmembrane subunits results in loss of CATSPERθ protein in the spermatid cells during spermatogenesis. CATSPERθ might acts as a checkpoint for the properly assembled CatSper channel complex to traffic to sperm flagella. This study provides insights into the CatSper channel assembly and elucidates the physiological role of CATSPERθ in sperm motility and male fertility.

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“…1,2 In addition to heteromultimerization within the same subfamily (e.g., KCNQ2/3, KCNQ4/5), the functional repertoire of KCNQ channels (as subsequently also discovered for other Kv channels) is expanded by co-assembly with single transmembrane segment KCNE regulatory subunits. 3 In vascular smooth muscle, KCNQ4 and KCNQ5 can heteromultimerize, 4,5 together with KCNE4, 6,7 to form functional channels that control the resting membrane potential and facilitate vasodilatations elicited by certain receptors, e.g., β adrenoceptors and calcitonin gene-related peptide receptors. 5,[7][8][9][10][11][12] Nearly all the work involving vascular KCNQ channels has been performed in male rodents; however, vascular KCNQ channel expression and function were recently revealed to be estrogen-dependent, manifesting as the potency of certain KCNQ-specific activators shifting by >10fold when comparing female rats from different estrus phases (high versus low estrogen levels).…”

Section: Introductionmentioning

confidence: 99%

“…Voltage‐gated potassium (Kv) channels in the KCNQ (Kv7) subfamily serve a number of diverse and essential roles in physiology, ranging from action potential repolarization in the heart to K + recycling in the gastric epithelium and inner ear (KCNQ1), neuronal action potential gatekeeping (KCNQ2/3) and regulation of vascular tone (KCNQ4/5) 1,2 . In addition to heteromultimerization within the same subfamily (e.g., KCNQ2/3, KCNQ4/5), the functional repertoire of KCNQ channels (as subsequently also discovered for other Kv channels) is expanded by co‐assembly with single transmembrane segment KCNE regulatory subunits 3 …”

Section: Introductionmentioning

confidence: 99%

Medicinal plant rosemary relaxes blood vessels by activating vascular smooth muscle KCNQ channels

et al. 2023

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The evergreen plant rosemary (Salvia rosmarinus) has been employed medicinally for centuries as a memory aid, analgesic, spasmolytic, vasorelaxant and antihypertensive, with recent preclinical and clinical evidence rationalizing some applications. Voltage‐gated potassium (Kv) channels in the KCNQ (Kv7) subfamily are highly influential in the nervous system, muscle and epithelia. KCNQ4 and KCNQ5 regulate vascular smooth muscle excitability and contractility and are implicated as antihypertensive drug targets. Here, we found that rosemary extract potentiates homomeric and heteromeric KCNQ4 and KCNQ5 activity, resulting in membrane hyperpolarization. Two rosemary diterpenes, carnosol and carnosic acid, underlie the effects and, like rosemary, are efficacious KCNQ‐dependent vasorelaxants, quantified by myography in rat mesenteric arteries. Sex‐ and estrous cycle stage‐dependence of the vasorelaxation matches sex‐ and estrous cycle stage‐dependent KCNQ expression. The results uncover a molecular mechanism underlying rosemary vasorelaxant effects and identify new chemical spaces for KCNQ‐dependent vasorelaxants.

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Kv Channel Ancillary Subunits: Where Do We Go from Here?

Cited by 10 publications

References 245 publications

G protein βγ regulation of KCNQ-encoded voltage-dependent K channels

G protein βγ regulation of KCNQ-encoded voltage-dependent K channels

A CUG-initiated CATSPERθ functions in the CatSper channel assembly and serves as a checkpoint for flagellar trafficking

Medicinal plant rosemary relaxes blood vessels by activating vascular smooth muscle KCNQ channels

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