0

Characterization and Regulation of Wild-Type and Mutant TASK-1 Two Pore Domain Potassium Channels Indicated in Pulmonary Arterial Hypertension

Kevin P Cunningham, Robyn G Holden, Pilar M Escribano-Subias, Angel Cogolludo, Emma L Veale, Alistair Mathie

J Physiol. 2019 Feb;597(4):1087-1101.

PMID: 30365877

Abstract:

Key points:
The TASK-1 channel gene (KCNK3) has been identified as a possible disease-causing gene in heritable pulmonary arterial hypertension (PAH). In the present study, we show that novel mutated TASK-1 channels, seen in PAH patients, have a substantially reduced current compared to wild-type TASK-1 channels. These mutated TASK-1 channels are located at the plasma membrane to the same degree as wild-type TASK-1 channels. ONO-RS-082 and alkaline pH 8.4 both activate TASK-1 channels but do not recover current through mutant TASK-1 channels. We show that the guanylate cyclase activator, riociguat, a novel treatment for PAH, enhances current through TASK-1 channels but does not recover current through mutant TASK-1 channels.
Abstract:
Pulmonary arterial hypertension (PAH) affects ∼15-50 people per million. KCNK3, the gene that encodes the two pore domain potassium channel TASK-1 (K2P3.1), has been identified as a possible disease-causing gene in heritable PAH. Recently, two new mutations have been identified in KCNK3 in PAH patients: G106R and L214R. The present study aimed to characterize the functional properties and regulation of wild-type (WT) and mutated TASK-1 channels and determine how these might contribute to PAH and its treatment. Currents through WT and mutated human TASK-1 channels transiently expressed in tsA201 cells were measured using whole-cell patch clamp electrophysiology. Localization of fluorescence-tagged channels was visualized using confocal microscopy and quantified with in-cell and on-cell westerns. G106R or L214R mutated channels were located at the plasma membrane to the same degree as WT channels; however, their current was markedly reduced compared to WT TASK-1 channels. Functional current through these mutated channels could not be restored using activators of WT TASK-1 channels (pH 8.4, ONO-RS-082). The guanylate cyclase activator, riociguat, enhanced current through WT TASK-1 channels; however, similar to the other activators investigated, riociguat did not have any effect on current through mutated TASK-1 channels. Thus, novel mutations in TASK-1 seen in PAH substantially alter the functional properties of these channels. Current through these channels could not be restored by activators of TASK-1 channels. Riociguat enhancement of current through TASK-1 channels could contribute to its therapeutic benefit in the treatment of PAH.

Chemicals Related in the Paper:

Catalog Number Product Name Structure CAS Number Price
AP99754060 ONO-RS-082 ONO-RS-082 99754-06-0 Price
qrcode
QUICK LINKS

Home

Products

About Us

Resources

Biological Stains

Top Sellers

Careers

Contact

HEADQUARTERS

Tel:

Fax:

Email:

FOLLOW US

Interested in our products & services? Need detailed information?

Privacy Policy | Cookie Policy | Copyright © 2025 Alfa Chemistry. All rights reserved.