Katja Steinke scite author profile

Abstract-Physical and emotional stress is accompanied by release of stress hormones such as the glucocorticoid cortisol. This hormone upregulates the serum-and glucocorticoid-inducible kinase (SGK)1, which in turn stimulates I Ks , a slow delayed rectifier potassium current that mediates cardiac action potential repolarization. Mutations in I Ks channel ␣ (KCNQ1, KvLQT1, Kv7.1) or ␤ (KCNE1, IsK, minK) subunits cause long QT syndrome (LQTS), an inherited cardiac arrhythmia associated with increased risk of sudden death. Together with the GTPases RAB5 and RAB11, SGK1 facilitates membrane recycling of KCNQ1 channels. Here, we show altered SGK1-dependent regulation of LQTS-associated mutant I Ks channels. Whereas some mutant KCNQ1 channels had reduced basal activity but were still activated by SGK1, currents mediated by KCNQ1(Y111C) or KCNQ1(L114P) were paradoxically reduced by SGK1. Heteromeric channels coassembled of wild-type KCNQ1 and the LQTS-associated KCNE1(D76N) mutant were similarly downregulated by SGK1 because of a disrupted RAB11-dependent recycling. Mutagenesis experiments indicate that stimulation of I Ks channels by SGK1 depends on residues H73, N75, D76, and P77 in KCNE1. Identification of the I Ks recycling pathway and its modulation by stress-stimulated SGK1 provides novel mechanistic insight into potentially fatal cardiac arrhythmias triggered by physical or psychological stress.

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Overlapping Cardiac Phenotype Associated with a Familial Mutation in the Voltage Sensor of the KCNQ1 Channel

Henrion

Zumhagen

Steinke

et al. 2012

Cell Physiol Biochem

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Background: Cardiac action potential repolarisation is determined by K⁺ currents including I_Ks. I_Ks channels are heteromeric channels composed of KCNQ1 and KCNE E-subunits. Mutations in KCNQ1 are associated with sinus bradycardia, familial atrial fibrillation (fAF) and/or short QT syndrome as a result of gain-of-function, and long QT syndrome (LQTS) due to loss-of-function in the ventricles. Here, we report that the missense mutation R231C located in S4 voltage sensor domain is associated with a combined clinical phenotype of sinus bradycardia, fAF and LQTS. We aim to understand the molecular basis of the complex clinical phenotype. Methods: We expressed and functionally analyzed the respective channels kinetics in Xenopus laevis oocytes. The molecular nature of the residue R231 was studied by homology modeling and molecular dynamics simulation. Results: As a result, the mutation reduced voltage sensitivity of channels, possibly due to neutralization of the positive charge of the arginine side chain substituted by cysteine. Modeling suggested that the charge carrying side chain of R231 is positioned suitably to transfer transmembrane voltages into conformational energy. Further, the mutation altered the functional interactions with KCNE subunits. Conclusion: The mutation acted in a E-subunit dependent manner, suggesting I_Ks function altered by the presence of different KCNE subunits in sinus node, atria and ventricles as the molecular basis of sinus bradycardia, fAF and LQTS in mutation carriers.

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Coxsackievirus B3 modulates cardiac ion channels

et al. 2013

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Infections with coxsackieviruses of type B (CVBs), which are known to induce severe forms of acute and chronic myocarditis, are often accompanied by ventricular arrhythmias and sudden cardiac death. The mechanisms underlying the development of virus-induced, life-threatening arrhythmias, which are phenotypically similar to those observed in patients having functionally impaired cardiac ion channels, remain, however, enigmatic. In the present study, we show, for the first time, modulating time-dependent effects of CVB3 on the cardiac ion channels KCNQ1, hERG1, and Cav1.2 in heterologous expression. Channel protein abundance in cellular plasma membrane and patterns of their subcellular distribution were altered in infected murine hearts. The antiviral compound AG7088 did not prevent these effects on channels. In silico analyses of infected human myocytes suggest pronounced alterations of electrical and calcium signaling and increased risk of arrhythmogenesis. These modifications are attenuated by the common Asian polymorphism KCNQ1 P448R, a genetic determinant preventing coxsackievirus-induced effects in vitro. This study provides a previously unknown explanation for the development of arrhythmias in enteroviral myocarditis, which will help to develop therapeutic strategies for arrhythmia treatment.

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Miniaturized HIA Microdiagonal Pump as Left Ventricular Assist Device in a Sheep Model

Schmitto¹,

Ortmann²,

Akdis³

et al. 2008

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We evaluated the newly developed miniaturized HIA microdiagonal blood pump (MDP) as a continuous flow left ventricular assist device. In a sheep model (n = 6), the MDP was implanted through left lateral thoracotomy and placed paracorporeally with inflow conduit to left atrium and outflow conduit to descending aorta. The sheep were pumped at a mean flow rate of 2.5 L/min for 7 days. Anticoagulation was applied by intravenous heparin administration. Postoperatively, activated clotting time was held stable with values of 200 seconds. During follow-up, blood samples (creatinine kinase, creatinine, glutamic-oxaloacetic transaminase (aspartate aminotransferase) (GOT), glutamate dehydrogenase (GLDH), gamma-GT, plasma-free hemoglobin, and hemoglobine) were taken daily. After 7 days, the sheep were killed for macroscopic examination. Systemic artery pressures remained stable during the whole test period. Because of operative reasons, the hemoglobin value (7.5 +/- 0.61 g/dl) decreased perioperatively, but recovered within the test period, whereas creatinine kinase increased initially after thoracotomy, but decreased to normal within days. Renal and liver functions were slightly impaired perioperatively, indicated by temporarily enhanced values of GOT, gamma-GT, GLDH, and creatinine. The MDP did not produce significant hemolysis as measured by plasma-free hemoglobin levels. Wound infections did not occur. We conclude that the MDP ran successfully as an left ventricular assist device for 7 days in sheep has potential for long-term support, and may serve as an alternative to current technologies. Presented data were not obtained in a clinical trial; however, the results are promising enough to proceed with longer duration animal studies.

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Autoantibodies to Glutamate Receptor Antigens in Multiple Sclerosis and Rasmussen's Encephalitis

Trippe¹,

Steinke²,

Orth³

et al. 2014

Neuroimmunomodulation

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Background: Glutamate and its specific ionotropic receptors, including N-methyl-D-aspartate (NMDA) and alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) receptors, are supposed to play an important role in neurodegeneration as well as neuronal regeneration. Although autoantibodies (aab) to glutamate receptors (GluR) have been identified in several neurologic diseases, including paraneoplastic encephalitis and Rasmussen's encephalitis (RE) with an increasing prevalence, the presence and role of anti-GluR aab in multiple sclerosis (MS) have not been studied yet. Objectives and Methods: In this study, we tested the serum samples of 56 subjects, including patients with relapsing-remitting MS (n = 25), patients with RE (n = 8), and healthy donors (HD; n = 23), for anti-GluR aab by immunoblot analysis of a panel of recombinantly expressed GluR proteins, including GluN1, GluN2C, GluA3, GluK2, and GluD2. Results: aab were mainly found directed against GluN1 and, except for one aab positive to GluK2 in 1 MS patient and 2 HD controls positive for GluA3, no other anti-GluR aab were detected. In the sera of RE patients, no anti-GluR aab were found. In patients with MS, 8 of the 25 sera (32%) tested positive for GluN1. Compared to the HD (6/23; 26%), this difference was not statistically significant (p = 0.28). Conclusions: Our study showed that if anti-GluR aab were detectable in HD and MS patients, they were mainly directed against GluN1 (in particular to oligomeric protein complexes) and were not found in RE. Those antibodies may have low titers and low affinities and might be considered an immune epiphenomenon. Hence, further studies will have to clarify their potential role as a surrogate marker for the extent of neuronal destruction or regeneration, respectively.

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Katja Steinke

Long QT Syndrome–Associated Mutations in KCNQ1 and KCNE1 Subunits Disrupt Normal Endosomal Recycling of I _Ks Channels

Overlapping Cardiac Phenotype Associated with a Familial Mutation in the Voltage Sensor of the KCNQ1 Channel

Coxsackievirus B3 modulates cardiac ion channels

Miniaturized HIA Microdiagonal Pump as Left Ventricular Assist Device in a Sheep Model

Autoantibodies to Glutamate Receptor Antigens in Multiple Sclerosis and Rasmussen's Encephalitis

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Katja Steinke

Long QT Syndrome–Associated Mutations in KCNQ1 and KCNE1 Subunits Disrupt Normal Endosomal Recycling of I Ks Channels

Overlapping Cardiac Phenotype Associated with a Familial Mutation in the Voltage Sensor of the KCNQ1 Channel

Coxsackievirus B3 modulates cardiac ion channels

Miniaturized HIA Microdiagonal Pump as Left Ventricular Assist Device in a Sheep Model

Autoantibodies to Glutamate Receptor Antigens in Multiple Sclerosis and Rasmussen's Encephalitis

Contact Info

Product

Resources

About

Long QT Syndrome–Associated Mutations in KCNQ1 and KCNE1 Subunits Disrupt Normal Endosomal Recycling of I _Ks Channels