Author: Kozovska, Zuzana ; Grman, Marian ; Babula, Petr ; Liskova, Veronika ; Roller, Ladislav ; Rezuchova, Ingeborg ; Gazova, Simova ; Klena, Ladislav ; Krizanova, Olga ; Galvankova, Kristina

The sodium/calcium exchanger (NCX) type 1 has been well described in various cancers, but little is known about the other two NCX types (NCX2 and NCX3). In this study, we used the selective blocker of NCX3 - YM-244769 to investigate changes in apoptosis induction, migration, proliferation, intracellular calcium and ATP in four cancer cell lines - DLD1, HeLa, MDA-MB-231 and JIMT1. In all four cell lines we observed a concentration-dependent increase in the number of apoptotic cells, as well as reduced migration and proliferation. Induction of hypoxic conditions did not alter the response of these cells to YM-244769 in any of the above-mentioned parameters. These results indicate the role of NCX3 in cancer cell migration, proliferation and apoptosis, as inhibition of NCX1 by the specific blocker SEA0400 had no significant effect on these parameters. However, we verified the effect of NCX3 inhibition by using CRISPR/Cas9 to generate clones in which the SLC8A3 (NCX3) gene was deleted, and we obtained the same results. In addition, mitochondrial respiration was impaired in the clones with NCX3 knocked-out, suggesting that NCX3 also play a role in bioenergetics. In conclusion, we have clearly shown that NCX3 plays an important anti-apoptotic, pro-migratory and proliferative role in the cancer cells by affecting mitochondrial bioenergetics, thus supporting their survival and fate.

01 Apr 2025·HEART RHYTHM

Flecainide Sensitizes Conduction to Hyponatremia through an Ephaptic Mechanism

Article

Author: Adams, William P ; Hoeker, Gregory S ; Poelzing, Steven

BACKGROUND:

Studies suggest that voltage-gated sodium channel (SCs) loss of function (LoF), often through the use of sodium channel blockers (SCBs) such as tricyclic anti-depressants, some recreational drugs, and importantly, class 1c anti-arrhythmics, sensitizes cardiac conduction to hyponatremia. However, the mechanism driving conduction velocity (CV) sensitivity to sodium concentration ([Na⁺]) is unknown. We recently demonstrated CV-[Na⁺] sensitivity in haploinsufficient Scn5a+/- mouse and reduced CV-[Na⁺] sensitivity when ephaptic coupling (extracellular conduction by electric fields) is also reduced.

OBJECTIVE:

Determine which mechanisms influence CV sensitivity to [Na⁺] during voltage-gated SC LoF induced by the class 1c antiarrhythmic, flecainide.

METHODS:

CV was measured by optical mapping Langendorff-perfused guinea pig hearts with either 145 or 120mM [Na⁺] under control conditions, with flecainide alone, and the combination of flecainide with: ephaptic coupling uncouplers mannitol or LQLEED, Na⁺-Ca²⁺ exchanger inhibitor SEA0400, Na⁺-K⁺-ATPase inhibitor ouabain, I_Kr blocker E4031, or I_K1 inhibitor BaCl₂. CV-[Na⁺] sensitivity was quantified as percent CV slowing in response to lowering sodium.

RESULTS:

Reducing [Na⁺] under control conditions did not slow CV. Reducing [Na⁺] in the presence of flecainide significantly slowed conduction (i.e. [Na⁺] sensitivity). Both ephaptic coupling uncouplers significantly attenuated CV-[Na⁺] sensitivity. Inhibiting the Na⁺-Ca²⁺ exchanger did not significantly change CV-[Na⁺] sensitivity. However, inhibiting outward potassium currents attenuated CV-[Na⁺] sensitivity.

CONCLUSIONS:

SC LoF sensitizes conduction to changes in sodium via ephaptic coupling and outward potassium current mediated mechanisms. This study has implications for the management of plasma sodium levels in patients on SC-blocking drugs.

21 Feb 2025·BIOLOGICAL & PHARMACEUTICAL BULLETIN

Involvement of the Na<sup>+</sup>/Ca<sup>2+</sup> Exchanger in the Automaticity of the Cardiomyocytes from the Guinea Pig Pulmonary Vein but Not the Sinus Node

Article

Author: Hamaguchi, Shogo ; Tanaka, Hikaru ; Sekiguchi, Kana ; Odaka, Ryosuke ; Namekata, Iyuki

Fluorescence imaging analysis was performed in cardiomyocytes from the sinus node, the orthotopic pacemaker, and the pulmonary vein, a potential ectopic pacemaker that may cause atrial fibrillation, focusing on the role of the Na⁺/Ca²⁺ exchanger (NCX). Isolated cardiomyocytes from the guinea pig pulmonary vein and sinus node showing automaticity were loaded with fluorescence probes for analysis. Inhibition of NCX by SEA0400 decreased the Ca²⁺ transient frequency in the pulmonary vein cardiomyocytes but not in the sinus node. The basal intracellular Ca²⁺ concentration, as well as the number of Ca²⁺ sparks in the subsarcolemmal region, was higher in the pulmonary vein cardiomyocytes than in the sinus node. By contrast, the intracellular Na⁺ concentration was not different between the pulmonary vein and sinus node cardiomyocytes. The equilibrium potential for NCX (E_NCX) was estimated to be less negative in the pulmonary vein cardiomyocytes than in the sinus node. In conclusion, the forward mode NCX is involved in spontaneous activity in the pulmonary vein cardiomyocytes but not in the sinus node; this is probably because the Ca²⁺ supply and the driving force for the forward mode NCX are both larger in the pulmonary vein cardiomyocytes than in the sinus node.

100 Deals associated with SEA-0400

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Indication	Highest Phase	Country/Location	Organization	Date
Brain Ischemia	Preclinical	Japan	Osaka University	01 Jul 2001
Brain Ischemia	Preclinical	Japan	Taisho Pharmaceutical Co., Ltd.	01 Jul 2001
Reperfusion Injury	Preclinical	Japan	Taisho Pharmaceutical Co., Ltd.	01 Jul 2001
Reperfusion Injury	Preclinical	Japan	Osaka University	01 Jul 2001
Stroke	Discovery	Japan	Taisho Pharmaceutical Co., Ltd.	-

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