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1.
Yale J Biol Med ; 96(1): 79-82, 2023 03.
Artigo em Inglês | MEDLINE | ID: mdl-37009191

RESUMO

Introduction: Many commercially available foods and beverages contain color additives to which patients may develop allergic hypersensitivity. Several color additives currently approved for commercial sale in the United States have raised health concerns to a varying degree as testing and evidence of carcinogenicity, genotoxicity, and hypersensitivity has thus far been inadequate. Common uses for color additives include baked goods (eg, cakes, pastries, candy), flavored dairy products such as yogurt, sports-themed drinks (eg, Gatorade® Fruit Punch), and red-dyed Slurpee® beverages. Methods: We present the case of a patient who experienced color additive-related allergic hypersensitivity reactions after consumption of Slurpee® beverages, which may place her at risk when consuming other commercially available beverages and food products containing color additives. Percutaneous skin testing and an oral challenge were administered using three different red color additives (two color additives for skin testing and one color additive for the oral challenge). Results: The specific color additive precipitating her symptoms was not conclusively identified. Review of the literature acknowledges the idea that further research into color additive-related allergy should be conducted as there are many commercially available color additives that can elicit hypersensitivity reactions after consumption. Conclusion: Current research shows that of the red color additives available, Citrus Red, Red No. 3, and Red No. 40 are recognized to elicit such reactions. In order to lessen the burden of color additive-related hypersensitivity in the general population, public education, increased research, and subsequent regulations should be implemented.


Assuntos
Hipersensibilidade , Feminino , Humanos , Estados Unidos , Bebidas
2.
Acta Pharmacol Sin ; 37(1): 82-97, 2016 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-26725737

RESUMO

The proper expression and function of the cardiac pacemaker is a critical feature of heart physiology. The sinoatrial node (SAN) in human right atrium generates an electrical stimulation approximately 70 times per minute, which propagates from a conductive network to the myocardium leading to chamber contractions during the systoles. Although the SAN and other nodal conductive structures were identified more than a century ago, the mechanisms involved in the generation of cardiac automaticity remain highly debated. In this short review, we survey the current data related to the development of the human cardiac conduction system and the various mechanisms that have been proposed to underlie the pacemaker activity. We also present the human embryonic stem cell-derived cardiomyocyte system, which is used as a model for studying the pacemaker. Finally, we describe our latest characterization of the previously unrecognized role of the SK4 Ca(2+)-activated K(+) channel conductance in pacemaker cells. By exquisitely balancing the inward currents during the diastolic depolarization, the SK4 channels appear to play a crucial role in human cardiac automaticity.


Assuntos
Canais de Potássio Ativados por Cálcio de Condutância Intermediária/fisiologia , Canais de Potássio Cálcio-Ativados/fisiologia , Nó Sinoatrial/fisiologia , Relógios Biológicos , Células-Tronco Embrionárias Humanas/citologia , Células-Tronco Embrionárias Humanas/fisiologia , Humanos , Miócitos Cardíacos/citologia , Miócitos Cardíacos/fisiologia
3.
Proc Natl Acad Sci U S A ; 110(18): E1685-94, 2013 Apr 30.
Artigo em Inglês | MEDLINE | ID: mdl-23589888

RESUMO

Proper expression and function of the cardiac pacemaker is a critical feature of heart physiology. Two main mechanisms have been proposed: (i) the "voltage-clock," where the hyperpolarization-activated funny current If causes diastolic depolarization that triggers action potential cycling; and (ii) the "Ca(2+) clock," where cyclical release of Ca(2+) from Ca(2+) stores depolarizes the membrane during diastole via activation of the Na(+)-Ca(2+) exchanger. Nonetheless, these mechanisms remain controversial. Here, we used human embryonic stem cell-derived cardiomyocytes (hESC-CMs) to study their autonomous beating mechanisms. Combined current- and voltage-clamp recordings from the same cell showed the so-called "voltage and Ca(2+) clock" pacemaker mechanisms to operate in a mutually exclusive fashion in different cell populations, but also to coexist in other cells. Blocking the "voltage or Ca(2+) clock" produced a similar depolarization of the maximal diastolic potential (MDP) that culminated by cessation of action potentials, suggesting that they converge to a common pacemaker component. Using patch-clamp recording, real-time PCR, Western blotting, and immunocytochemistry, we identified a previously unrecognized Ca(2+)-activated intermediate K(+) conductance (IK(Ca), KCa3.1, or SK4) in young and old stage-derived hESC-CMs. IK(Ca) inhibition produced MDP depolarization and pacemaker suppression. By shaping the MDP driving force and exquisitely balancing inward currents during diastolic depolarization, IK(Ca) appears to play a crucial role in human embryonic cardiac automaticity.


Assuntos
Células-Tronco Embrionárias/citologia , Canais de Potássio Ativados por Cálcio de Condutância Intermediária/metabolismo , Nó Sinoatrial/citologia , Nó Sinoatrial/metabolismo , Potenciais de Ação/efeitos dos fármacos , Potenciais de Ação/fisiologia , Linhagem Celular , Células-Tronco Embrionárias/efeitos dos fármacos , Células-Tronco Embrionárias/metabolismo , Humanos , Modelos Cardiovasculares , Miócitos Cardíacos/citologia , Miócitos Cardíacos/efeitos dos fármacos , Miócitos Cardíacos/metabolismo , Pirazóis/farmacologia , Pirimidinas/farmacologia , Canal de Liberação de Cálcio do Receptor de Rianodina/metabolismo , Nó Sinoatrial/efeitos dos fármacos , Tioureia/análogos & derivados , Tioureia/farmacologia
4.
Front Physiol ; 11: 590534, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-33329039

RESUMO

Calcium-activated potassium channels are a heterogeneous family of channels that, despite their different biophysical characteristics, structures, and pharmacological signatures, play a role of transducer between the ubiquitous intracellular calcium signaling and the electric variations of the membrane. Although this family of channels was extensively described in various excitable and non-excitable tissues, an increasing amount of evidences shows their functional role in the heart. This review aims to focus on the physiological role and the contribution of the small and intermediate calcium-activated potassium channels in cardiac pathologies.

5.
Front Pharmacol ; 10: 1566, 2019.
Artigo em Inglês | MEDLINE | ID: mdl-32009964

RESUMO

Catecholaminergic polymorphic ventricular tachycardia (CPVT) is an inherited, stressed-provoked ventricular arrhythmia. CPVT is treated by ß-adrenergic receptor blockers, Na+ channel inhibitors, sympathetic denervation, or by implanting a defibrillator. We showed recently that blockers of SK4 Ca2+-activated K+ channels depolarize the maximal diastolic potential, reduce the heart rate, and attenuate ventricular arrhythmias in CPVT. The aim of the present study was to examine whether the pacemaker channel inhibitor, ivabradine could demonstrate anti-arrhythmic properties in CPVT like other bradycardic agents used in this disease and to compare them with those of the SK4 channel blocker, TRAM-34. The effects of ivabradine were examined on the arrhythmic beating of human induced pluripotent stem cells derived cardiomyocytes (hiPSC-CMs) from CPVT patients, on sinoatrial node (SAN) calcium transients, and on ECG measurements obtained from transgenic mice model of CPVT. Ivabradine did neither prevent the arrhythmic pacing of hiPSC-CMs derived from CPVT patients, nor preclude the aberrant SAN calcium transients. In contrast to TRAM-34, ivabradine was unable to reduce in vivo the ventricular premature complexes and ventricular tachyarrhythmias in transgenic CPVT mice. In conclusion, ivabradine does not exhibit anti-arrhythmic properties in CPVT, which indicates that this blocker cannot be used as a plausible treatment for CPVT ventricular arrhythmias.

6.
EMBO Mol Med ; 9(4): 415-429, 2017 04.
Artigo em Inglês | MEDLINE | ID: mdl-28219898

RESUMO

Catecholaminergic polymorphic ventricular tachycardia (CPVT) is a stress-provoked ventricular arrhythmia, which also manifests sinoatrial node (SAN) dysfunction. We recently showed that SK4 calcium-activated potassium channels are important for automaticity of cardiomyocytes derived from human embryonic stem cells. Here SK4 channels were identified in human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) from healthy and CPVT2 patients bearing a mutation in calsequestrin 2 (CASQ2-D307H) and in SAN cells from WT and CASQ2-D307H knock-in (KI) mice. TRAM-34, a selective blocker of SK4 channels, prominently reduced delayed afterdepolarizations and arrhythmic Ca2+ transients observed following application of the ß-adrenergic agonist isoproterenol in CPVT2-derived hiPSC-CMs and in SAN cells from KI mice. Strikingly, in vivo ECG recording showed that intraperitoneal injection of the SK4 channel blockers, TRAM-34 or clotrimazole, greatly reduced the arrhythmic features of CASQ2-D307H KI and CASQ2 knockout mice at rest and following exercise. This work demonstrates the critical role of SK4 Ca2+-activated K+ channels in adult pacemaker function, making them promising therapeutic targets for the treatment of cardiac ventricular arrhythmias such as CPVT.


Assuntos
Canais de Potássio Ativados por Cálcio de Condutância Intermediária/metabolismo , Miócitos Cardíacos/fisiologia , Taquicardia Ventricular/fisiopatologia , Animais , Calsequestrina/genética , Células Cultivadas , Técnicas de Introdução de Genes , Humanos , Camundongos Knockout
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