Abstract The human voltage-gated sodium channel hNa V 1.5 is essential for cardiac excitability. Though underrecognized, Na V 1.5 is also expressed in multiple cancers, promoting cell migration and malignancy. hNa V 1.5 is a therapeutic target but limited pharmacological isoform specificity presents…
London: Macmillan Publishers Limited, part of Springer Nature, 2026-01-29
Abstract Heme, an iron-protoporphyrin IX complex, is a cofactor bound to various hemoproteins and supports a broad range of functions, such as electron transfer, oxygen transport, signal transduction, and drug metabolism. In recent years, there has been a growing recognition of heme as a non-genomic…
London: Macmillan Publishers Limited, part of Springer Nature, 2022-08-27
Abstract The cellular resting membrane potential ( V m ) not only determines electrical responsiveness of excitable cells but also plays pivotal roles in non-excitable cells, mediating membrane transport, cell-cycle progression, and tumorigenesis. Studying these processes requires estimation of V m ,…
N-type inactivation of voltage-gated K + channels is conferred by the N-terminal “ball” domains of select pore-forming α subunits or of auxiliary β subunits, and influences electrical cellular excitability. Here, we show that hemin impairs inactivation of K + channels formed by Kv3.4 α subunits as well…