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2. Longitudinal analysis of circulating tumor cell numbers improves tracking metastatic breast cancer progression

Author

Malgorzata Szostakowska-Rodzos, Anna Fabisiewicz, Maciej Wakula, Sylwia Tabor, Lukasz Szafron, Agnieszka Jagiello-Gruszfeld, and Ewa Anna Grzybowska

Subjects
Circulating tumor cells, Liquid biopsy, Metastatic breast cancer, Hormone-responsive breast cancer, Estrogen resistance, Medicine, Science
Abstract

Abstract Hormone-responsive breast cancer represents the most common type and has the best prognosis, but still approximately 40% of patients with this type can develop distant metastases, dramatically worsening the patient’s survival. Monitoring metastatic breast cancer (mBC) for signs of progression is an important part of disease management. Circulating tumor cell (CTC) detection and molecular characteristics gain importance as a diagnostic tool, but do not represent a clinical standard and its value as a predictor of progression is not yet established. The main objective of this study was to estimate the prognostic value of not only the CTC numbers, but also the dynamics of the CTC numbers in the same patient during the continuous evaluation of CTCs in patients with advanced breast cancer. The other objective was to assess the molecular changes in CTCs compared to primary tumor samples by genetic analysis of the seven genes associated with estrogen signaling pathway, mutations in which are often responsible for the resistance to endocrine therapy, and subsequent progression. This approach was taken to evaluate if genetic analysis of CTCs can be used in tracking the resistance, signaling that hormonal therapy should be replaced. Consequently, this report presents the results of a longitudinal CTC study based on three subsequent blood collections from 135 patients with metastatic breast cancer, followed by molecular analysis of the isolated single CTCs. CTCs were detected and isolated using an image-based, EpCAM-independent system CytoTrack; this approach allowed evaluation of EpCAM expression in detected CTCs. Isolated CTCs were subjected to NGS analysis to assess mutational changes. The results confirm the importance of the status of the CTC for progression-free survival and overall survival and provide new data on the dynamics of the CTC during a long monitoring period and in relation to clinical progression, highlighting the advantage of constant monitoring over the single count of CTC. Furthermore, high genetic and phenotypic inter- and intrapatient heterogeneity observed in CTCs suggest that metastatic lesions are divergent. High genetic heterogeneity in the matching CTC/primary tumor samples may indicate early dissemination. The tendency towards the accumulation of activating/oncogenic mutation in CTCs, leading to anti-estrogen resistant disease, was not confirmed in this study.

Published
2024
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3. Right‐ventricular dysfunction in HFpEF is linked to altered cardiomyocyte Ca2+ homeostasis and myofilament sensitivity

Author

Niklas Hegemann, Uwe Primessnig, David Bode, Paulina Wakula, Nicola Beindorff, Robert Klopfleisch, Laura Michalick, Jana Grune, Felix Hohendanner, Daniel Messroghli, Burkert Pieske, Wolfgang M. Kuebler, and Frank R. Heinzel

Subjects
Right ventricular dysfunction, Heart failure with preserved ejection fraction, Myofilament sensitivity, Calcium, ZSF‐1 obese rats, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Aims Heart failure with preserved ejection fraction (HFpEF) is frequently (30%) associated with right ventricular (RV) dysfunction, which increases morbidity and mortality in these patients. Yet cellular mechanisms of RV remodelling and RV dysfunction in HFpEF are not well understood. Here, we evaluated RV cardiomyocyte function in a rat model of metabolically induced HFpEF. Methods and results Heart failure with preserved ejection fraction‐prone animals (ZSF‐1 obese) and control rats (Wistar Kyoto) were fed a high‐caloric diet for 13 weeks. Haemodynamic characterization by echocardiography and invasive catheterization was performed at 22 and 23 weeks of age, respectively. After sacrifice, organ morphometry, RV histology, isolated RV cardiomyocyte function, and calcium (Ca2+) transients were assessed. ZSF‐1 obese rats showed a HFpEF phenotype with left ventricular (LV) hypertrophy, LV diastolic dysfunction (including increased LV end‐diastolic pressures and E/e′ ratio), and preserved LV ejection fraction. ZSF‐1 obese animals developed RV dilatation (50% increased end‐diastolic area) and mildly impaired RV ejection fraction (42%) with evidence of RV hypertrophy. In isolated RV cardiomyocytes from ZSF‐1 obese rats, cell shortening amplitude was preserved, but cytosolic Ca2+ transient amplitude was reduced. In addition, augmentation of cytosolic Ca2+ release with increased stimulation frequency was lost in ZSF‐1 obese rats. Myofilament sensitivity was increased, while contractile kinetics were largely unaffected in intact isolated RV cardiomyocytes from ZSF‐1 obese rats. Western blot analysis revealed significantly increased phosphorylation of cardiac myosin‐binding protein C (Ser282 cMyBP‐C) but no change in phosphorylation of troponin I (Ser23, 24 TnI) in RV myocardium from ZSF‐1 obese rats. Conclusions Right ventricular dysfunction in obese ZSF‐1 rats with HFpEF is associated with intrinsic RV cardiomyocyte remodelling including reduced cytosolic Ca2+ amplitudes, loss of frequency‐dependent augmentation of Ca2+ release, and increased myofilament Ca2+ sensitivity.

Published
2021
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4. Effects of BNP and Sacubitrilat/Valsartan on Atrial Functional Reserve and Arrhythmogenesis in Human Myocardium

Author

Uwe Primessnig, Peter M. Deißler, Paulina Wakula, Khai Liem Tran, Felix Hohendanner, Dirk von Lewinski, Florian Blaschke, Christoph Knosalla, Volkmar Falk, Burkert Pieske, Herko Grubitzsch, and Frank R. Heinzel

Subjects
BNP, sacubitrilat/valsartan (Sac/Val), atrial function, arrhythmias, heart failure, neprilysin, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

BackgroundAlthough the angiotensin receptor-neprilysin inhibitor (ARNI) sacubitril/valsartan started a new era in heart failure (HF) treatment, less is known about the tissue-level effects of the drug on the atrial myocardial functional reserve and arrhythmogenesis.Methods and ResultsRight atrial (RA) biopsies were retrieved from patients (n = 42) undergoing open-heart surgery, and functional experiments were conducted in muscle strips (n = 101). B-type natriuretic peptide (BNP) did not modulate systolic developed force in human myocardium during β-adrenergic stimulation, but it significantly reduced diastolic tension (p < 0.01) and the probability of arrhythmias (p < 0.01). In addition, patient's plasma NTproBNP positively correlated with isoproterenol-induced contractile reserve in atrial tissue in vitro (r = 0.65; p < 0.01). Sacubitrilat+valsartan (Sac/Val) did not show positive inotropic effects on atrial trabeculae function but reduced arrhythmogeneity. Atrial and ventricular biopsies from patients with end-stage HF (n = 10) confirmed that neprilysin (NEP) is equally expressed in human atrial and ventricular myocardium. RA NEP expression correlates positively with RA ejection fraction (EF) (r = 0.806; p < 0.05) and left ventricle (LV) NEP correlates inversely with left atrial (LA) volume (r = −0.691; p < 0.05).ConclusionBNP ameliorates diastolic tension during adrenergic stress in human atrial myocardium and may have positive long-term effects on the inotropic reserve. BNP and Sac/Val reduce atrial arrhythmogeneity during adrenergic stress in vitro. Myocardial NEP expression is downregulated with declining myocardial function, suggesting a compensatory mechanism in HF.

Published
2022
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5. Effects of different exercise modalities on cardiac dysfunction in heart failure with preserved ejection fraction

Author

David Bode, Natale P.L. Rolim, Tim Guthof, Niklas Hegemann, Paulina Wakula, Uwe Primessnig, Anne Marie Ormbostad Berre, Volker Adams, Ulrik Wisløff, Burkert M. Pieske, Frank R. Heinzel, Felix Hohendanner, and OptimEx Study Group

Subjects
Excitation–contraction coupling, Exercise, HFpEF, Metabolic syndrome, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Aims Heart failure with preserved ejection fraction (HFpEF) is an increasingly prevalent disease. Physical exercise has been shown to alter disease progression in HFpEF. We examined cardiomyocyte Ca2+ homeostasis and left ventricular function in a metabolic HFpEF model in sedentary and trained rats following 8 weeks of moderate‐intensity continuous training (MICT) or high‐intensity interval training (HIIT). Methods and results Left ventricular in vivo function (echocardiography) and cardiomyocyte Ca2+ transients (CaTs) (Fluo‐4, confocal) were compared in ZSF‐1 obese (metabolic syndrome, HFpEF) and ZSF‐1 lean (control) 21‐ and 28‐week‐old rats. At 21 weeks, cardiomyocytes from HFpEF rats showed prolonged Ca2+ reuptake in cytosolic and nuclear CaTs and impaired Ca2+ release kinetics in nuclear CaTs. At 28 weeks, HFpEF cardiomyocytes had depressed CaT amplitudes, decreased sarcoplasmic reticulum (SR) Ca2+ content, increased SR Ca2+ leak, and elevated diastolic [Ca2+] following increased pacing rate (5 Hz). In trained HFpEF rats (HIIT or MICT), cardiomyocyte SR Ca2+ leak was significantly reduced. While HIIT had no effects on the CaTs (1–5 Hz), MICT accelerated early Ca2+ release, reduced the amplitude, and prolonged the CaT without increasing diastolic [Ca2+] or cytosolic Ca2+ load at basal or increased pacing rate (1–5 Hz). MICT lowered pro‐arrhythmogenic Ca2+ sparks and attenuated Ca2+‐wave propagation in cardiomyocytes. MICT was associated with increased stroke volume in HFpEF. Conclusions In this metabolic rat model of HFpEF at an advanced stage, Ca2+ release was impaired under baseline conditions. HIIT and MICT differentially affected Ca2+ homeostasis with positive effects of MICT on stroke volume, end‐diastolic volume, and cellular arrhythmogenicity.

Published
2021
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6. Cellular contribution to left and right atrial dysfunction in chronic arterial hypertension in pigs

Author

Ge Jin, Martin Manninger, Gabriel Adelsmayr, Michael Schwarzl, Alessio Alogna, Patrick Schönleitner, David Zweiker, Florian Blaschke, Mohammad Sherif, Snjezana Radulovic, Paulina Wakula, Sylvia Schauer, Gerald Höfler, Ursula Reiter, Gert Reiter, Heiner Post, Daniel Scherr, Karoly Acsai, Gudrun Antoons, Burkert Pieske, and Frank R. Heinzel

Subjects
Atrial remodelling, Calcium, Cardiomyocytes, Contractility, Sodium–calcium exchanger, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Aims Atrial contractile dysfunction contributes to worse prognosis in hypertensive heart disease (HHD), but the role of cardiomyocyte dysfunction in atrial remodelling in HHD is not well understood. We investigated and compared cellular mechanisms of left (LA) and right atrial (RA) contractile dysfunction in pigs with HHD. Methods and results In vivo electrophysiological and magnetic resonance imaging studies were performed in control and pigs treated with 11‐deoxycorticosterone acetate (DOCA)/high‐salt/glucose diet (12 weeks) to induce HHD. HHD leads to significant atrial remodelling and loss of contractile function in LA and a similar trend in RA (magnetic resonance imaging). Atrial remodelling was associated with a higher inducibility of atrial fibrillation but unrelated to changes in atrial refractory period or fibrosis (histology). Reduced atrial function in DOCA pigs was related to reduced contraction amplitude of isolated LA (already at baseline) and RA myocytes (at higher frequencies) due to reduced intracellular Ca release (Fura 2‐AM, field stimulation). However, Ca regulation differed in LA and RA cardiomyocytes: LA cardiomyocytes showed reduced sarcoplasmic reticulum (SR) [Ca], whereas in RA, SR [Ca] was unchanged and SR Ca2+‐ATPase activity was increased. Sodium–calcium exchanger (NCX) activity was not significantly altered. We used ORM‐10103 (3 μM), a specific NCX inhibitor to improve Ca availability in LA and RA cardiomyocytes from DOCA pigs. Partial inhibition of NCX increased Ca2+ transient amplitude and SR Ca in LA, but not RA cells. Conclusions In this large animal model of HHD, atrial remodelling in sinus rhythm in vivo was related to differential LA and RA cardiomyocyte dysfunction and Ca signalling. Selective acute inhibition of NCX improved Ca release in diseased LA cardiomyocytes, suggesting a potential therapeutic approach to improve atrial inotropy in HHD.

Published
2021
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7. Dual SGLT-1 and SGLT-2 inhibition improves left atrial dysfunction in HFpEF

Author

David Bode, Lukas Semmler, Paulina Wakula, Niklas Hegemann, Uwe Primessnig, Nicola Beindorff, David Powell, Raphael Dahmen, Hartmut Ruetten, Christian Oeing, Alessio Alogna, Daniel Messroghli, Burkert M. Pieske, Frank R. Heinzel, and Felix Hohendanner

Subjects
Atrial cardiomyopathy, Heart failure with preserved ejection fraction, SGLT inhibition, Atrial remodeling, Left atrial cardiomyocytes, Calcium cycling, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Background Sodium–glucose linked transporter type 2 (SGLT-2) inhibition has been shown to reduce cardiovascular mortality in heart failure independently of glycemic control and prevents the onset of atrial arrhythmias, a common co-morbidity in heart failure with preserved ejection fraction (HFpEF). The mechanism behind these effects is not fully understood, and it remains unclear if they could be further enhanced by additional SGLT-1 inhibition. We investigated the effects of chronic treatment with the dual SGLT-1&2 inhibitor sotagliflozin on left atrial (LA) remodeling and cellular arrhythmogenesis (i.e. atrial cardiomyopathy) in a metabolic syndrome-related rat model of HFpEF. Methods 17 week-old ZSF-1 obese rats, a metabolic syndrome-related model of HFpEF, and wild type rats (Wistar Kyoto), were fed 30 mg/kg/d sotagliflozin for 6 weeks. At 23 weeks, LA were imaged in-vivo by echocardiography. In-vitro, Ca2+ transients (CaT; electrically stimulated, caffeine-induced) and spontaneous Ca2+ release were recorded by ratiometric microscopy using Ca2+-sensitive fluorescent dyes (Fura-2) during various experimental protocols. Mitochondrial structure (dye: Mitotracker), Ca2+ buffer capacity (dye: Rhod-2), mitochondrial depolarization (dye: TMRE) and production of reactive oxygen species (dye: H2DCF) were visualized by confocal microscopy. Statistical analysis was performed with 2-way analysis of variance followed by post-hoc Bonferroni and student’s t-test, as applicable. Results Sotagliflozin ameliorated LA enlargement in HFpEF in-vivo. In-vitro, LA cardiomyocytes in HFpEF showed an increased incidence and amplitude of arrhythmic spontaneous Ca2+ release events (SCaEs). Sotagliflozin significantly reduced the magnitude of SCaEs, while their frequency was unaffected. Sotagliflozin lowered diastolic [Ca2+] of CaT at baseline and in response to glucose influx, possibly related to a ~ 50% increase of sodium sodium–calcium exchanger (NCX) forward-mode activity. Sotagliflozin prevented mitochondrial swelling and enhanced mitochondrial Ca2+ buffer capacity in HFpEF. Sotagliflozin improved mitochondrial fission and reactive oxygen species (ROS) production during glucose starvation and averted Ca2+ accumulation upon glycolytic inhibition. Conclusion The SGLT-1&2 inhibitor sotagliflozin ameliorated LA remodeling in metabolic HFpEF. It also improved distinct features of Ca2+-mediated cellular arrhythmogenesis in-vitro (i.e. magnitude of SCaEs, mitochondrial Ca2+ buffer capacity, diastolic Ca2+ accumulation, NCX activity). The safety and efficacy of combined SGLT-1&2 inhibition for the treatment and/or prevention of atrial cardiomyopathy associated arrhythmias should be further evaluated in clinical trials.

Published
2021
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9. Early Remodeling of Perinuclear Ca2+ Stores and Nucleoplasmic Ca2+ Signaling During the Development of Hypertrophy and Heart Failure

Author

Ljubojevic, Senka, Radulovic, Snjezana, Leitinger, Gerd, Sedej, Simon, Sacherer, Michael, Holzer, Michael, Winkler, Claudia, Pritz, Elisabeth, Mittler, Tobias, Schmidt, Albrecht, Sereinigg, Michael, Wakula, Paulina, Zissimopoulos, Spyros, Bisping, Egbert, Post, Heiner, Marsche, Gunther, Bossuyt, Julie, Bers, Donald M, Kockskämper, Jens, and Pieske, Burkert

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Cardiovascular, Genetics, Heart Disease, 2.1 Biological and endogenous factors, Aetiology, Animals, Calcium, Calcium Signaling, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Cardiomegaly, Cell Nucleus, Disease Models, Animal, Electric Stimulation, Female, Heart Failure, Histone Deacetylases, Humans, Inositol 1, 4, 5-Trisphosphate Receptors, Male, Mice, Mice, Inbred C57BL, Middle Aged, Myocytes, Cardiac, Rabbits, Ventricular Remodeling, calcium signaling, heart failure, nuclear envelope, remodeling, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Public Health and Health Services, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences, Sports science and exercise
Abstract

BackgroundA hallmark of heart failure is impaired cytoplasmic Ca(2+) handling of cardiomyocytes. It remains unknown whether specific alterations in nuclear Ca(2+) handling via altered excitation-transcription coupling contribute to the development and progression of heart failure.Methods and resultsUsing tissue and isolated cardiomyocytes from nonfailing and failing human hearts, as well as mouse and rabbit models of hypertrophy and heart failure, we provide compelling evidence for structural and functional changes of the nuclear envelope and nuclear Ca(2+) handling in cardiomyocytes as remodeling progresses. Increased nuclear size and less frequent intrusions of the nuclear envelope into the nuclear lumen indicated altered nuclear structure that could have functional consequences. In the (peri)nuclear compartment, there was also reduced expression of Ca(2+) pumps and ryanodine receptors, increased expression of inositol-1,4,5-trisphosphate receptors, and differential orientation among these Ca(2+) transporters. These changes were associated with altered nucleoplasmic Ca(2+) handling in cardiomyocytes from hypertrophied and failing hearts, reflected as increased diastolic Ca(2+) levels with diminished and prolonged nuclear Ca(2+) transients and slowed intranuclear Ca(2+) diffusion. Altered nucleoplasmic Ca(2+) levels were translated to higher activation of nuclear Ca(2+)/calmodulin-dependent protein kinase II and nuclear export of histone deacetylases. Importantly, the nuclear Ca(2+) alterations occurred early during hypertrophy and preceded the cytoplasmic Ca(2+) changes that are typical of heart failure.ConclusionsDuring cardiac remodeling, early changes of cardiomyocyte nuclei cause altered nuclear Ca(2+) signaling implicated in hypertrophic gene program activation. Normalization of nuclear Ca(2+) regulation may therefore be a novel therapeutic approach to prevent adverse cardiac remodeling.

Published
2014

10. The RNA-Binding Landscape of HAX1 Protein Indicates Its Involvement in Translation and Ribosome Assembly

Author

Anna Balcerak, Ewelina Macech-Klicka, Maciej Wakula, Rafal Tomecki, Krzysztof Goryca, Malgorzata Rydzanicz, Mateusz Chmielarczyk, Malgorzata Szostakowska-Rodzos, Marta Wisniewska, Filip Lyczek, Aleksandra Helwak, David Tollervey, Grzegorz Kudla, and Ewa A. Grzybowska

Subjects
RNA–protein binding, HAX1, RIP-seq, CRAC, translation, ribosome assembly, Cytology, QH573-671
Abstract

HAX1 is a human protein with no known homologues or structural domains. Mutations in the HAX1 gene cause severe congenital neutropenia through mechanisms that are poorly understood. Previous studies reported the RNA-binding capacity of HAX1, but the role of this binding in physiology and pathology remains unexplained. Here, we report the transcriptome-wide characterization of HAX1 RNA targets using RIP-seq and CRAC, indicating that HAX1 binds transcripts involved in translation, ribosome biogenesis, and rRNA processing. Using CRISPR knockouts, we find that HAX1 RNA targets partially overlap with transcripts downregulated in HAX1 KO, implying a role in mRNA stabilization. Gene ontology analysis demonstrated that genes differentially expressed in HAX1 KO (including genes involved in ribosome biogenesis and translation) are also enriched in a subset of genes whose expression correlates with HAX1 expression in four analyzed neoplasms. The functional connection to ribosome biogenesis was also demonstrated by gradient sedimentation ribosome profiles, which revealed differences in the small subunit:monosome ratio in HAX1 WT/KO. We speculate that changes in HAX1 expression may be important for the etiology of HAX1-linked diseases through dysregulation of translation.

Published
2022
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11. Protein Binding to Cis-Motifs in mRNAs Coding Sequence Is Common and Regulates Transcript Stability and the Rate of Translation

Author

Ewa A. Grzybowska and Maciej Wakula

Subjects
RNA-binding proteins, coding sequence, mammalian post-transcriptional gene expression, Cytology, QH573-671
Abstract

Protein binding to the non-coding regions of mRNAs is relatively well characterized and its functionality has been described in many examples. New results obtained by high-throughput methods indicate that binding to the coding sequence (CDS) by RNA-binding proteins is also quite common, but the functions thereof are more obscure. As described in this review, CDS binding has a role in the regulation of mRNA stability, but it has also a more intriguing role in the regulation of translational efficiency. Global approaches, which suggest the significance of CDS binding along with specific examples of CDS-binding RBPs and their modes of action, are outlined here, pointing to the existence of a relatively less-known regulatory network controlling mRNA stability and translation on yet another level.

Published
2021
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14. RNA–protein interactions: disorder, moonlighting and junk contribute to eukaryotic complexity

Author

Anna Balcerak, Alicja Trebinska-Stryjewska, Ryszard Konopinski, Maciej Wakula, and Ewa Anna Grzybowska

Subjects
rna-binding proteins, eukaryotic complexity, intrinsically disordered proteins, protein moonlighting, non-coding rna, Biology (General), QH301-705.5
Abstract

RNA–protein interactions are crucial for most biological processes in all organisms. However, it appears that the complexity of RNA-based regulation increases with the complexity of the organism, creating additional regulatory circuits, the scope of which is only now being revealed. It is becoming apparent that previously unappreciated features, such as disordered structural regions in proteins or non-coding regions in DNA leading to higher plasticity and pliability in RNA–protein complexes, are in fact essential for complex, precise and fine-tuned regulation. This review addresses the issue of the role of RNA–protein interactions in generating eukaryotic complexity, focusing on the newly characterized disordered RNA-binding motifs, moonlighting of metabolic enzymes, RNA-binding proteins interactions with different RNA species and their participation in regulatory networks of higher order.

Published
2019
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18. Kommissionierung

Author

Diefenbach, Heiko, Steinbach, Tim, Glock, Christoph, Grosse, Eric, and Wakula, Jurij

Abstract

Die Kommissionierung zählt zu den arbeits- und kostenintensivsten Prozessen in der Intralogistik. Kommissionierende werden dabei häufig hohen körperlichen Belastungen ausgesetzt, die das Risiko für Erkrankungen und Arbeitsausfälle erhöhen. Dieser Beitrag beleuchtet die beschriebene Problematik und stellt einfach umsetzbare Empfehlungen vor, um physische Belastungen in der Kommissionierung zu reduzieren und gleichzeitig die Prozesseffizienz zu steigern.

Published
2023
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20. Wnt11/Fzd7 signaling compartmentalizes AKAP2/PKA to regulate L-type Ca(2+) channel

Author

Csalyi, K.D., Rharass, T., Schulz, M., Phan, M.H.Q., Wakula, P., Mhatre, K.N., Plotnick, D., Werdich, A.A., Zauber, H., Sury, M.D., Selbach, M., Heinzel, F.R., Klussmann, E., and Panakova, D.

Subjects
Cancer Research, Cardiovascular and Metabolic Diseases, Function and Dysfunction of the Nervous System
Abstract

Calcium influx through the voltage-gated L-type calcium channels (LTCC) mediates a wide range of physiological processes from contraction to secretion. Despite extensive research on regulation of LTCC conductance by PKA phosphorylation in response to β-adrenergic stimulation, the science remains incomplete. Here, we show that Wnt11, a non-canonical Wnt ligand, through its G protein-coupled receptor (GPCR) Fzd7 attenuates the LTCC conductance by preventing the proteolytic processing of its C terminus. This is mediated across species by protein kinase A (PKA), which is compartmentalized by A-kinase anchoring proteins (AKAP). Systematic analysis of all AKAP family members revealed AKAP2 anchoring of PKA is central to the Wnt11-dependent regulation of the channel. The identified Wnt11/AKAP2/PKA signalosome is required for heart development, controlling the intercellular electrical coupling in the developing zebrafish heart. Altogether, our data revealed Wnt11/Fzd7 signaling via AKAP2/PKA as a conserved alternative GPCR system regulating Ca(2+) homeostasis.

Published
2019

21. Entwicklung einer ergonomischen Lagerplatzvergabe in der manuellen Person-zur-Ware Kommissionierung

Author

Steinebach, Tim, Wakula, Jurij, Bruder, Ralph, and Paulke, Maximilian

Abstract

In diesem Beitrag soll eine ergonomische Lagerplatzvergabe für Lager mit Fachbodenregalen entwickelt werden, welche Artikel bestimmten Lagerplätzen entsprechend der benötigten Kommissionierzeit und der körperlichen Belastung optimal zuordnet. Zur Bestimmung der Zeit wird der MTM-UAS Standard genutzt. Da Erkrankungen im unteren Rückenbereich bei Kommissionierenden besonders häufig auftreten, wird als Belastungskenngröße die Druckkraft auf das Wirbelsäulensegment L5-S1 gewählt. Zur Ermittlung dieser Kenngröße werden Kommissionierversuche (n= 11) durchgeführt und eingenommene Körperhaltungen in ein biomechanisches Simulationsprogramm implementiert. Die Zeit- und Belastungskenngrößen werden in einer bikriteriellen Optimierung pareto-effizient gelöst, wobei aufgrund des Zielkonflikts Kompromisslösungen der beiden Zielgrößen besonders attraktiv sind.

Published
2021
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25. Early remodeling of perinuclear Ca2+stores and nucleoplasmic Ca2+signaling during the development of hypertrophy and heart failure

Author

Ljubojevic, S, Radulovic, S, Leitinger, G, Sedej, S, Sacherer, M, Holzer, M, Winkler, C, Pritz, E, Mittler, T, Schmidt, A, Sereinigg, M, Wakula, P, Zissimopoulos, S, Bisping, E, Post, H, Marsche, G, Bossuyt, J, Bers, DM, Kockskämper, J, and Pieske, B

Abstract

Background-A hallmark of heart failure is impaired cytoplasmic Ca2+handling of cardiomyocytes. It remains unknown whether specific alterations in nuclear Ca2+handling via altered excitation- transcription coupling contribute to the development and progression of heart failure. Methods and Results-Using tissue and isolated cardiomyocytes from nonfailing and failing human hearts, as well as mouse and rabbit models of hypertrophy and heart failure, we provide compelling evidence for structural and functional changes of the nuclear envelope and nuclear Ca2+handling in cardiomyocytes as remodeling progresses. Increased nuclear size and less frequent intrusions of the nuclear envelope into the nuclear lumen indicated altered nuclear structure that could have functional consequences. In the (peri)nuclear compartment, there was also reduced expression of Ca2+pumps and ryanodine receptors, increased expression of inositol-1,4,5- trisphosphate receptors, and differential orientation among these Ca2+transporters. These changes were associated with altered nucleoplasmic Ca2+handling in cardiomyocytes from hypertrophied and failing hearts, reflected as increased diastolic Ca2+levels with diminished and prolonged nuclear Ca2+transients and slowed intranuclear Ca2+diffusion. Altered nucleoplasmic Ca2+levels were translated to higher activation of nuclear Ca2+/ calmodulin-dependent protein kinase II and nuclear export of histone deacetylases. Importantly, the nuclear Ca2+alterations occurred early during hypertrophy and preceded the cytoplasmic Ca2+changes that are typical of heart failure. Conclusions-During cardiac remodeling, early changes of cardiomyocyte nuclei cause altered nuclear Ca2+signaling implicated in hypertrophic gene program activation. Normalization of nuclear Ca2+regulation may therefore be a novel therapeutic approach to prevent adverse cardiac remodeling. © 2014 American Heart Association, Inc.

Published
2014
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26. HAX1 impact on collective cell migration, cell adhesion, and cell shape is linked to the regulation of actomyosin contractility

Author

Balcerak, Anna, Trebinska-Stryjewska, Alicja, Wakula, Maciej, Chmielarczyk, Mateusz, Smietanka, Urszula, Rubel, Tymon, Konopinski, Ryszard, Macech-Klicka, Ewelina, Zub, Renata, and Grzybowska, Ewa Anna

Abstract

This study demonstrates that HAX1 has an impact on collective cell migration, cell–cell contacts, cell–substrate adhesion, and cell shape. All of these effects can be attributed to the modulation of actomyosin contractility through changes in RhoA and septin signaling. HAX1 was also shown to have no effect on invasive potential in breast cancer cells.

Published
2019
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27. Analyse von Belastungen und muskulären Beanspruchungen der unteren Extremitäten beim „seitlichen“ und „gemischtem“ Gehen an einer simulierten U‑Montagelinie mit unterschiedlichen Laufrichtungen und kurzen Taktzeiten

Author

Wakula, Jurij, Bauer, Stefan, Spindler, Sören, and Bruder, Ralph

Abstract

Der Schwerpunkt dieser Studie im IAD-Labor lag auf der Analyse der Auswirkung des Gehensmit seitlichen Schritten und „gemischten“ Schritten in unterschiedlichen Umlaufrichtungen (gegen Uhrzeigersinn und im Uhrzeigersinn)von Station zu Station an einer U‑Linie auf die muskuläre Beanspruchung der linken und rechten Beinmuskulatur. Die Messungen wurden mittels Oberflächen-Elektromyographie (OEMG) mit dem Noraxon-Messsystem für verschiedene Bewegungsszenarien realisiert. Die Länge der U‑Linie mit fünf Arbeitsstationen variierte bis ca. 3,2 m die Breite ca. 1,2 m. Sechs männliche Probanden ohne Erfahrung in der Montage im Alter von 19–30 Jahren nahmen an der Studie teil. Die gewonnenen Ergebnisse zeigen, dass „seitliches“ Gehen gegen Uhrzeigersinn (GUZ)beanspruchender für die rechten Beinmuskeln im Vergleich zum linken Beinmuskel ist und umgekehrt beim Gehen im Uhrzeigersinn (UZ)für Muskeln im linken Bein. Wechsel der Laufrichtung an der U‑Linie: GUZ → UZ → GUZ → UZ ist positiv für die muskuläre Beanspruchung – es bringt den Ausgleich der EA-Werte in den analysierten rechten und linken Beinmuskeln. Das Gehen mit „gemischten“ (seitlichen und zwei-drei normalen) Schritten in der analysierten U‑Linie brachte kaum Reduzierung der einseitigen Beanspruchungen in den Beinen im Vergleich zum Gehen nur mit „seitlichen“ Schritten. Praktische Relevanz: Die gewonnenen Ergebnisse der muskulären Beanspruchung in den Beinen lassen trotz vorliegender Variationen sowohl der Umlaufrichtung (in Uhrzeigersinn oder dagegen) als auch der Bewegungsweise (nur Seitenschritte oder „kombinierte“ Schritte) eine einseitige muskuläre Beanspruchung in Abhängigkeit des Umlaufsinns erkennen. Daraus lässt sich der Schluss zu einer möglichst variablen Bewegungs- und Umlaufstrategie im Hinblick auf den Stations‑/Bereichswechsel bei kurz getakteten Montagelinien in der Praxis ziehen. The muscular strain at the lower extremities was analysed in the IAD-lab using the simulated U‑shape with short-cycle tasks (approx. 80 sec.) with walking “sideways” and “mixed” walking (sidesteps and normal steps). Also focus was on analysis of the effects of “walking sideways counter clockwise” vs. “turn clockwise sideways” on the muscular strain in the three selected muscles in the right and the left leg. Four different scenarios were tested. The U‑shape consisted of five work stations, was 2 m long and 1.4 m wide in scenarios walking with “sidesteps” (A, B) only. In scenarios with “mixed” walking the assembly U‑shape was about 3,2 m long and 1.4 m wide. The EA-activities in selected three leg muscles in the left and right legs were analysed using surface EMG-method. Six test subjects, between 19 and 30 years old, without experience in assembly work took part in the study. The results show that walking “sideways” counter-clockwise (CC) cause the selected right leg muscles more strain compared to the left leg muscle by some test persons. When walking clockwise (C) two muscles in the left leg were more stressed compared to the right leg muscles. Changing the direction of moving at the U‑line: CC → C → CC → C is positive for the muscular strains – it brings the balance of the EA values in analyzed right and left leg muscles. Walking with “mixed” (lateral and two-three normal) steps in the analyzed U‑shape did not reduced muscular strains in the legs compared to walking with “sidesteps” only. Practical Relevance: The results of the analysis of muscular stress/strain in the right and left legs reveal the influence of the direction of moving at simulated U‑shape in the lab – clockwise or counter-clockwise – as well as the “mixed” walking or walking with sidesteps only lateral. This leads to the conclusion that a moving and circulating strategy is as variable as possible with regard to changing working stations in the U‑shape with short-cycles in practice

Published
2018
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30. JTV519 (K201) reduces sarcoplasmic reticulum Ca²⁺ leak and improves diastolic function in vitro in murine and human non-failing myocardium.

Author

Sacherer M, Sedej S, Wakula P, Wallner M, Vos MA, Kockskämper J, Stiegler P, Sereinigg M, von Lewinski D, Antoons G, Pieske BM, Heinzel FR, CONTICA investigators, Sacherer, M, Sedej, S, Wakuła, P, Wallner, M, Vos, M A, Kockskämper, J, and Stiegler, P

Abstract

Background and Purpose: Ca²⁺ leak from the sarcoplasmic reticulum (SR) via ryanodine receptors (RyR2s) contributes to cardiomyocyte dysfunction. RyR2 Ca²⁺ leak has been related to RyR2 phosphorylation. In these conditions, JTV519 (K201), a 1,4-benzothiazepine derivative and multi-channel blocker, stabilizes RyR2s and decrease SR Ca²⁺ leak. We investigated whether JTV519 stabilizes RyR2s without increasing RyR2 phosphorylation in mice and in non-failing human myocardium and explored underlying mechanisms.Experimental Approach: SR Ca²⁺ leak was induced by ouabain in murine cardiomyocytes. [Ca²⁺]-transients, SR Ca²⁺ load and RyR2-mediated Ca²⁺ leak (sparks/waves) were quantified, with or without JTV519 (1 µmol·L⁻¹). Contribution of Ca²⁺ -/calmodulin-dependent kinase II (CaMKII) was assessed by KN-93 and Western blot (RyR2-Ser(2814) phosphorylation). Effects of JTV519 on contractile force were investigated in non-failing human ventricular trabeculae.Key Results: Ouabain increased systolic and diastolic cytosolic [Ca²⁺](i) , SR [Ca²⁺], and SR Ca²⁺ leak (Ca²⁺ spark (SparkF) and Ca²⁺ wave frequency), independently of CaMKII and RyR-Ser(2814) phosphorylation. JTV519 decreased SparkF but also SR Ca²⁺ load. At matched SR [Ca²⁺], Ca²⁺ leak was significantly reduced by JTV519, but it had no effect on fractional Ca²⁺ release or Ca²⁺ wave propagation velocity. In human muscle, JTV519 was negatively inotropic at baseline but significantly enhanced ouabain-induced force and reduced its deleterious effects on diastolic function.Conclusions and Implications: JTV519 was effective in reducing SR Ca²⁺ leak by specifically regulating RyR2 opening at diastolic [Ca²⁺](i) in the absence of increased RyR2 phosphorylation at Ser(2814) , extending the potential use of JTV519 to conditions of acute cellular Ca²⁺ overload. [ABSTRACT FROM AUTHOR]

Published
2012
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31. Targeting Cardiac Hypertrophy

Author

Bisping, Egbert, Wakula, Paulina, Poteser, Michael, and Heinzel, Frank R.

Abstract

Cardiac hypertrophy is commonly observed in conditions of increased hemodynamic or metabolic stress. This hypertrophy is not compensatory but rather reflects activation of maladaptive cellular processes that promote disease progression. Myocardial hypertrophy serves as a diagnostic and prognostic marker of cardiac remodeling, and underlying regulatory processes have provided effective therapeutic targets to slow disease progression and improve outcome. We review hypertrophic signaling pathways in cardiomyocytes and discuss established and novel targets for pharmacological intervention. New drugs in the pipeline include the third generation aldosterone antagonists (PF-03882845 and BAY94-8862) and biased angiotensin II receptor agonists. Furthermore, different approaches to stimulate cGMP-dependent protective signaling are currently evaluated in clinical trials, including the combination of the vasopeptidase neprilysin inhibitor and an angiotensin receptor blocker (ARNi). In an overview on cardiomyocyte hypertrophic signaling, we also highlight emerging experimental treatment concepts such as inhibition of Ca2-mediated transcriptional regulation, adeno-associated viruses for sarcoplasmicendoplasmic reticulum calcium ATPase (SERCA2a), PI3 kinase gene transfer and microRNA-based therapy. We conclude that antihypertrophic therapy extends beyond blocking the classical -adrenergic and renin-angiotensin-aldosterone system-dependent signaling cascades, although new therapies require clinical validation regarding outcome.

Published
2014
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32. The translation initiation factor eIF2β is an interactor of protein phosphatase-1

Author

Wakula, Paulina, Beullens, Monique, van Eynde, Aleyde, Ceulemans, Hugo, Stalmans, Willy, and Bollen, Mathieu

Abstract

It is reasonably well understood how the initiation of translation is controlled by reversible phosphorylation of the eukaryotic translation initiation factors eIF2α, eIF2Bϵ and eIF4E. Other initiation factors, including eIF2β, are also established phosphoproteins but the physiological impact of their phosphorylation is not known. Using a sequence homology search we found that the central region of eIF2β contains a putative PP1-(protein phosphatase-1) binding RVxF-motif. The predicted eIF2β-PP1 interaction was confirmed by PP1 binding and co-immunoprecipitation assays on cell lysates as well as with the purified components. Site-directed mutagenesis showed that eIF2β contains, in addition to an RVxF-motif, at least one other PP1-binding site in its C-terminal half. eIF2β functioned as an inhibitor for the dephosphorylation of glycogen phosphorylase and Ser51of eIF2α by PP1, but did not affect the dephosphorylation of Ser464 of eIF2Bϵ by this phosphatase. Strikingly, eIF2β emerged as an activator of its own dephosphorylation (Ser2, Ser67, Ser218) by associated PP1, since the substrate quality of eIF2β was decreased by the mere mutation of its RVxF-motif. These results make eIF2β an attractive candidate substrate for associated PP1 in vivo. The overexpression of wild-type eIF2β or eIF2β with a mutated RVxF-motif did not differentially affect the rate of translation, indicating that the binding of PP1 is not rate-limiting for translation under basal conditions.

Published
2006
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33. Stress-Strain-Analysis of Grapevine Pruning with Powered and Non-Powered Hand Tools

Author

Wakula, Jurij, Beckmann, Thomas, Hett, Michael, and Landau, Kurt

Abstract

Non-power and power cutting hand tools are mainly used every day in vineyards for grapevines pruning during 5 months (November - March). The grapevines pruning with the help of non-power tools is very stressful for wine growers. Repetitive movements combined with external forces in finger-hand-wrist-system, extreme positions in arm-shoulder-system, climate condition are some of the stress factors. Grapevines pruning with 5 manual prunes produced by 3 different manufacture and 2 power hand tools (electrically and pneumatically) were analysed. The results reveal that grapevines pruning with pneumatic and electric prunes is up to 30% more effective (according to productivity) than cutting with non-powered hand tools. At the same time is grapevines cutting with power tools more stressful as with non-powered one.

Published
2000
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34. Ergonomic Analysis of Grapevine Pruning and Wine Harvesting to Define Work and Hand Tools Design Requirements

Author

Wakula, Jurij and Landau, Kurt

Abstract

Quantitative and qualitative knowledge of ergonomic analysis of grapevines pruning and wine harvesting with respect to postural load, repetitive movements of cutting hand and using different cutting tools was obtained. It could be demonstrated, that stress generated by working postures and repetitive movements combined with were a major problem of work., Ergonomic design deficits of the existing cutting hand tools was carried out.

Published
2000
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35. Arterial hypertension promotes atrial remodelling and fibrillation in pigs.

Author

Antoons, G., Schwarzl, M., Jin, G., Zweiker, D., Huber, S., Verderber, J., Alogna, A., Schoenleitner, P., Wakula, P., Lueger, A., Heinzel, F. R., Pieske, B., and Post, H.

Subjects
HYPERTENSION, ATRIAL fibrillation, EXTRACELLULAR matrix
Abstract

Arterial hypertension is an independent risk factor for atrial fibrillation (AF). The occurrence of AF is related to atrial dilation and extracellular matrix remodelling, shortening of atrial refractory period (AERP), and disturbed Ca2+ handling. In this study, we investigate if chronic hypertension in a porcine model induces structural and electrical changes in the atria, including Ca2+ homeostasis, and whether these changes enhance susceptibility to AF. To induce hypertension, 8 landrace pigs received subcutaneous DOCA-pellets (aldosterone analogon, 90-day release) and high-lipid/salt diet for 12 weeks. Eight weight-matched pigs served as controls. AERP was determined at different cycle lengths, S0, followed by a premature extrastimulus with 5 ms decrements. To test for AF susceptibility, a separate group of pigs (N=16) was instrumented with a telemetry-controlled pacemaker. Surgical procedures and in vivo interventions were performed under anesthesia (1.0 % isoflurane, 35 μg/kg/h fen-tanyl, 1 mg/kg/h midazolam, and 0.2 mg/kg/h pancouronium). A number of 5/16 pigs received DOCA/salt starting 2 weeks before the onset of rapid atrial pacing (600 bpm). After 2 weeks pacing, spontaneous atrial rhythm was monitored in unsedated pigs. AF susceptibility was defined as no detectable sinus rhythm for > 1h. Atrial myocytes were isolated from 12 w-treated DOCA (N=3) and control pigs (N=4), from left (LA) or right atrium (RA). Calcium transients (CaT) and cell shortening were measured during field stimulation using Fura-2 AM (0.5 - 2 Hz, 37°C). Data are expressed as mean± s.e.m. After 12 w DOCA, systolic blood pressure was 139±1, vs 95±6 mmHg in control pigs (P<0.05, tail-cuff-method). LA area was enlarged (12.4±0.3 vs 9.7±0.6 cm² in control, p<0.05, echocardiography). Interstitial fibrosis was reduced (14.8±1.8 vs 20.5±1.7% in control, p<0.05, expressed as % stained area by Sirius Red). AERP was significantly shortened in DOCA (fig 1). In single atrial myocytes, CaT amplitude was comparable in DOCA and control, in LA and RA. In LA, but not in RA, diastolic Ca2+ levels were lower (0.54±0.02 F340/380, n=5, N=, vs 0.81±0.01 in control, n=7, N=,0.5 Hz), and Ca2+ decline was faster (RT50 81±24 ms, vs 197±21 ms in control, 0.5 Hz). While unchanged in RA, in LA cells, cell shortening was increased from 2.3±0.8% in control (n=, N=2) to 5.4±0.5% in DOCA (n=8, N=,0.5 Hz). DOCA pigs were more susceptible to AF. After 2 w of rapid pacing, sustained AF (>1h) occurred in 4/5 DOCA pigs, vs 2/11 control pigs (p<0.05). In conclusion, although sinus rhythm is maintained, hypertensive pigs develop left atrial dilation and reduced electrical refractoriness, which was related to enhanced AF susceptibility. At the myocyte level, faster Ca2+ kinetics and increased contractility may reflect compensatory mechanisms that primarily occur in the left atria during chronic hypertension. [ABSTRACT FROM AUTHOR]

Published
2013

36. Increased cytosolic [Na] despite increased sodium potassium pump activity during early development of heart failure in beta1 adrenergic receptor overexpressing mice.

Author

Schoenleitner, P., Antoons, G., Khan, S., Unterer, G. J., Wakula, P., Engelhardt, S., Pieske, B., and Heinzel, F. R.

Subjects
CARDIAC hypertrophy, HEART failure, HYPERTROPHY
Abstract

Chronic stimulation of the β1-adrenergic pathway leads to cardiac hypertrophy and heart failure (HF). In mice overexpressing the β1-adrenergic receptor (β1), changes in Ca2+ handling precede the development of structural hypertrophy at an early stage of remodelling (8-12w). The Na+/K+ ATPase (NKA) is an important regulator of [Na+]i, and indirectly of Ca2+ homeostasis. Therefore we investigated putative changes in NKA activity, regulation and expression as well as mechanisms linked to the regulation of Na+ and Ca2+ in an early stage of HF. Single left ventricular myocytes were isolated from 8-12 weeks old male β1 mice and wild-type littermates (WT). For Na+- measurements, myocytes were loaded with SBFI-AM. Relaxation of Ca2+ transients (CaT, fluo-3 AM) was measured as the time constant of decay by exponential fitting (time constant tauStim for CaT during 0.5Hz stimulation; and tauCaff for caffeine- induced transients, 20 mM). For NKA pump current measurements (Ip) a Cs- Asp based pipette solution with 10 mM Na+ was used. To measure maximal Ip, Cs-Asp was replaced with Na-Asp to a final concentration of 100 mM [Na+]pip. Cells were superfused with normal Tyrode solution with additional, in mM: 2 BaCl2, 2 NiCl2 (pH=7.4 with NaOH), at 37°C. Ip was measured as the difference in outward current, at 0 mV, after rapid solution switch to K+-free solution. Currents were normalized to cell capacitance. Protein expression of NKA subunit α1 and α2, NHE 1, TRPC 1/3/6, PLM and PLM phosphorylation were determined using Western blotting in whole ventricle homogenates. Protein densities were normalized to GAPDH. In β1 myocytes, CaT showed a slower decline (tauStim 232±27ms in β1 vs. 180±17 ms in WT;mean±S.E.;n≥11/group;P<0.05). Ca2+ removal via forward NCX was significantly slowed. Cytosolic [Na+] was increased in resting cells (24.3±4.5 vs. 14.2±2.5 mM), and during stimulation (1Hz: 27.6±5.1 vs. 17.6±3.5 mM; 3 Hz:28.6±5.4 vs. 19.7±4.4 mM;n=14 and 8 respectively; all P<0.05). Protein levels of the NKA α1 subunit, NHE 1, TRPC 1,3 and 6 were unchanged, whereas the α2 subunit was reduced. Phospholemman (PLM), an inhibitory subunit of NKA, showed increased phosphorylation at Ser68 and the total amount was reduced in β1 mice. With [Na+]pip=10 mM, Ip density was significantly increased in β1 myocytes. Maximal Ip density was unchanged. In β1 mice, the slower Ca2+ removal via NCX is related to increased cytosolic [Na+]i. Proteins related to Na+ influx, NHE 1, TRPC 1/3 and 6, are not differentially regulated at this early stage of cardiac remodeling. At physiological [Na+]i, NKA current is increased, consistent with the higher phosphorylation degree of PLM, thus rather acting as a compensatory mechanism for the high Na+ levels during early remodeling in heart failure. [ABSTRACT FROM AUTHOR]

Published
2013

37. P680 Na+/Ca2+ exchanger (NCX) function and diastolic Ca2+ leak in a model of heart failure with preserved ejection fraction.

Author

Primessnig, U, Hoell, A, Wakula, P, Pieske, BM, and Heinzel, FR

Subjects
CALCIUM channels, ION exchange (Chemistry), HEART failure, ECHOCARDIOGRAPHY, NEPHRECTOMY, PROTEIN expression
Abstract

Background: Heart failure with preserved ejection fraction (HFPEF) is increasingly common but the established heart failure (HF) drugs are not effective. The underlying cellular mechanisms are incompletely understood. Therefore we investigated cardiomyocyte function and intracellular Ca2+ homeostasis in a model of HFPEF.Methods: Young male Wistar rats were subjected to subtotal nephrectomy (NXT) or sham operation (SOP). Serial blood/urine samples, echocardiography and pressure-volume loops at 8 and 24 weeks were performed. After sacrifice, left ventricular (LV) hypertrophy and NCX function (Caffeine induced Ca2+ transient, TAU) and protein expression (Western blot) were determined. Cardiomyocyte function (Ca2+ transients, sarcoplasmic reticulum (SR) diastolic Ca2+ leak (Ca2+ sparks) and SR Ca2+ content; Fluo4-AM) were quantified in isolated LV cardiomyocytes without and with the NCX inhibitor SEA0400 (300nM).Results: NXT rats showed stable compensated renal impairment and significantly hypertrophied LV at 8 weeks with a further increase after 24 weeks. LV systolic function (EF, dP/dt) was preserved. End diastolic pressure (EDP) volume relationship was markedly shifted left- and upwards and lung weight were significantly increased, indicating HFPEF with pulmonary congestion. LV cardiomyocytes from NXT showed no significant differences in amplitudes of Ca2+ transients. However, time for early (50%) relaxation of the Ca2+ transients at 8 weeks were significantly prolonged with a further increase after 24 weeks (RT50 17.2±2.9 and 30.8±2.7 vs. 27.6±1.8 and 41.8±2.6 ms; n≥20; p< 0.05). TAU was significantly prolonged at 8 and 24 weeks indicating reduced NCX forward mode activity, while NCX protein expression was upregulated. At 8 weeks, Ca2+ spark frequency tended to be increased (p=0.07) while SR Ca2+ content was unchanged. SEA0400 accelerated Ca2+ transient decay but did not affect Ca2+ spark frequency. At 24 weeks, Ca2+ spark frequency was increased (4.3±0.7 vs. 11.5±1.8 sparks/s/μm3; n≥20; p<0.05) and SR Ca2+ content was decreased (p<0.05). SEA0400 significantly accelerated Ca2+ transient decay and reduced Ca2+ spark frequency.Conclusion: In this model of HFPEF, relaxation of cardiomyocytes was slower and cytosolic Ca2+ decay was prolonged. Diastolic Ca2+ leak increased significantly during diseases progression. Whereas NCX forward mode activity was already reduced early despite increased NCX protein expression. Acute treatment with NCX inhibitor SEA0400 normalized cytosolic Ca2+ transients in young NXT rats suggesting a role of reverse mode NCX activity and decreased Ca2+ leak at later time points. [ABSTRACT FROM PUBLISHER]

Published
2014
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41. Developing and testing of ergonomically tools for tile-setters work

Author

Wakula, J., Adelmann, M., Linke-Kaiser, G., and Landau, K.

Abstract

Selected tools for tile-setters (a transportable work station including a work table and platform with adjustable height, a device for transportation and tipping out mortar, and a tool box) were developed and designed in order to reduce the tile-setters' strain. Two prototypes of transportable work station were tested in 8 tile-setting companies and a learning centre. A questionnaire was worked out for the testing. Considering the test results and in co-operation with industrial manufacturers, the development will be finished so that the work station can go into production.

Published
2000
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42. Effects of BNP and Sacubitrilat/Valsartan on Atrial Functional Reserve and Arrhythmogenesis in Human Myocardium.

Author

Primessnig U, Deißler PM, Wakula P, Tran KL, Hohendanner F, von Lewinski D, Blaschke F, Knosalla C, Falk V, Pieske B, Grubitzsch H, and Heinzel FR

Abstract

Background: Although the angiotensin receptor-neprilysin inhibitor (ARNI) sacubitril/valsartan started a new era in heart failure (HF) treatment, less is known about the tissue-level effects of the drug on the atrial myocardial functional reserve and arrhythmogenesis., Methods and Results: Right atrial (RA) biopsies were retrieved from patients ( n = 42) undergoing open-heart surgery, and functional experiments were conducted in muscle strips ( n = 101). B-type natriuretic peptide (BNP) did not modulate systolic developed force in human myocardium during β-adrenergic stimulation, but it significantly reduced diastolic tension ( p < 0.01) and the probability of arrhythmias ( p < 0.01). In addition, patient's plasma NTproBNP positively correlated with isoproterenol-induced contractile reserve in atrial tissue in vitro ( r = 0.65; p < 0.01). Sacubitrilat+valsartan (Sac/Val) did not show positive inotropic effects on atrial trabeculae function but reduced arrhythmogeneity. Atrial and ventricular biopsies from patients with end-stage HF ( n = 10) confirmed that neprilysin (NEP) is equally expressed in human atrial and ventricular myocardium. RA NEP expression correlates positively with RA ejection fraction (EF) ( r = 0.806; p < 0.05) and left ventricle (LV) NEP correlates inversely with left atrial (LA) volume ( r = -0.691; p < 0.05)., Conclusion: BNP ameliorates diastolic tension during adrenergic stress in human atrial myocardium and may have positive long-term effects on the inotropic reserve. BNP and Sac/Val reduce atrial arrhythmogeneity during adrenergic stress in vitro . Myocardial NEP expression is downregulated with declining myocardial function, suggesting a compensatory mechanism in HF., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Primessnig, Deißler, Wakula, Tran, Hohendanner, von Lewinski, Blaschke, Knosalla, Falk, Pieske, Grubitzsch and Heinzel.)

Published
2022
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43. Right-ventricular dysfunction in HFpEF is linked to altered cardiomyocyte Ca 2+ homeostasis and myofilament sensitivity.

Author

Hegemann N, Primessnig U, Bode D, Wakula P, Beindorff N, Klopfleisch R, Michalick L, Grune J, Hohendanner F, Messroghli D, Pieske B, Kuebler WM, and Heinzel FR

Subjects
Animals, Homeostasis, Humans, Myocytes, Cardiac, Myofibrils, Rats, Stroke Volume, Heart Failure etiology, Ventricular Dysfunction, Right etiology
Abstract

Aims: Heart failure with preserved ejection fraction (HFpEF) is frequently (30%) associated with right ventricular (RV) dysfunction, which increases morbidity and mortality in these patients. Yet cellular mechanisms of RV remodelling and RV dysfunction in HFpEF are not well understood. Here, we evaluated RV cardiomyocyte function in a rat model of metabolically induced HFpEF., Methods and Results: Heart failure with preserved ejection fraction-prone animals (ZSF-1 obese) and control rats (Wistar Kyoto) were fed a high-caloric diet for 13 weeks. Haemodynamic characterization by echocardiography and invasive catheterization was performed at 22 and 23 weeks of age, respectively. After sacrifice, organ morphometry, RV histology, isolated RV cardiomyocyte function, and calcium (Ca 2+ ) transients were assessed. ZSF-1 obese rats showed a HFpEF phenotype with left ventricular (LV) hypertrophy, LV diastolic dysfunction (including increased LV end-diastolic pressures and E/e' ratio), and preserved LV ejection fraction. ZSF-1 obese animals developed RV dilatation (50% increased end-diastolic area) and mildly impaired RV ejection fraction (42%) with evidence of RV hypertrophy. In isolated RV cardiomyocytes from ZSF-1 obese rats, cell shortening amplitude was preserved, but cytosolic Ca 2+ transient amplitude was reduced. In addition, augmentation of cytosolic Ca 2+ release with increased stimulation frequency was lost in ZSF-1 obese rats. Myofilament sensitivity was increased, while contractile kinetics were largely unaffected in intact isolated RV cardiomyocytes from ZSF-1 obese rats. Western blot analysis revealed significantly increased phosphorylation of cardiac myosin-binding protein C (Ser282 cMyBP-C) but no change in phosphorylation of troponin I (Ser23, 24 TnI) in RV myocardium from ZSF-1 obese rats., Conclusions: Right ventricular dysfunction in obese ZSF-1 rats with HFpEF is associated with intrinsic RV cardiomyocyte remodelling including reduced cytosolic Ca 2+ amplitudes, loss of frequency-dependent augmentation of Ca 2+ release, and increased myofilament Ca 2+ sensitivity., (© 2021 The Authors. ESC Heart Failure published by John Wiley & Sons Ltd on behalf of European Society of Cardiology.)

Published
2021
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44. Effects of different exercise modalities on cardiac dysfunction in heart failure with preserved ejection fraction.

Author

Bode D, Rolim NPL, Guthof T, Hegemann N, Wakula P, Primessnig U, Berre AMO, Adams V, Wisløff U, Pieske BM, Heinzel FR, and Hohendanner F

Subjects
Animals, Echocardiography, Myocytes, Cardiac, Rats, Sarcoplasmic Reticulum, Stroke Volume, Heart Failure
Abstract

Aims: Heart failure with preserved ejection fraction (HFpEF) is an increasingly prevalent disease. Physical exercise has been shown to alter disease progression in HFpEF. We examined cardiomyocyte Ca 2+ homeostasis and left ventricular function in a metabolic HFpEF model in sedentary and trained rats following 8 weeks of moderate-intensity continuous training (MICT) or high-intensity interval training (HIIT)., Methods and Results: Left ventricular in vivo function (echocardiography) and cardiomyocyte Ca 2+ transients (CaTs) (Fluo-4, confocal) were compared in ZSF-1 obese (metabolic syndrome, HFpEF) and ZSF-1 lean (control) 21- and 28-week-old rats. At 21 weeks, cardiomyocytes from HFpEF rats showed prolonged Ca 2+ reuptake in cytosolic and nuclear CaTs and impaired Ca 2+ release kinetics in nuclear CaTs. At 28 weeks, HFpEF cardiomyocytes had depressed CaT amplitudes, decreased sarcoplasmic reticulum (SR) Ca 2+ content, increased SR Ca 2+ leak, and elevated diastolic [Ca 2+ ] following increased pacing rate (5 Hz). In trained HFpEF rats (HIIT or MICT), cardiomyocyte SR Ca 2+ leak was significantly reduced. While HIIT had no effects on the CaTs (1-5 Hz), MICT accelerated early Ca 2+ release, reduced the amplitude, and prolonged the CaT without increasing diastolic [Ca 2+ ] or cytosolic Ca 2+ load at basal or increased pacing rate (1-5 Hz). MICT lowered pro-arrhythmogenic Ca 2+ sparks and attenuated Ca 2+ -wave propagation in cardiomyocytes. MICT was associated with increased stroke volume in HFpEF., Conclusions: In this metabolic rat model of HFpEF at an advanced stage, Ca 2+ release was impaired under baseline conditions. HIIT and MICT differentially affected Ca 2+ homeostasis with positive effects of MICT on stroke volume, end-diastolic volume, and cellular arrhythmogenicity., (© 2021 The Authors. ESC Heart Failure published by John Wiley & Sons Ltd on behalf of European Society of Cardiology.)

Published
2021
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45. Cellular contribution to left and right atrial dysfunction in chronic arterial hypertension in pigs.

Author

Jin G, Manninger M, Adelsmayr G, Schwarzl M, Alogna A, Schönleitner P, Zweiker D, Blaschke F, Sherif M, Radulovic S, Wakula P, Schauer S, Höfler G, Reiter U, Reiter G, Post H, Scherr D, Acsai K, Antoons G, Pieske B, and Heinzel FR

Subjects
Animals, Heart Atria diagnostic imaging, Sarcoplasmic Reticulum metabolism, Sodium-Calcium Exchanger, Swine, Calcium metabolism, Hypertension
Abstract

Aims: Atrial contractile dysfunction contributes to worse prognosis in hypertensive heart disease (HHD), but the role of cardiomyocyte dysfunction in atrial remodelling in HHD is not well understood. We investigated and compared cellular mechanisms of left (LA) and right atrial (RA) contractile dysfunction in pigs with HHD., Methods and Results: In vivo electrophysiological and magnetic resonance imaging studies were performed in control and pigs treated with 11-deoxycorticosterone acetate (DOCA)/high-salt/glucose diet (12 weeks) to induce HHD. HHD leads to significant atrial remodelling and loss of contractile function in LA and a similar trend in RA (magnetic resonance imaging). Atrial remodelling was associated with a higher inducibility of atrial fibrillation but unrelated to changes in atrial refractory period or fibrosis (histology). Reduced atrial function in DOCA pigs was related to reduced contraction amplitude of isolated LA (already at baseline) and RA myocytes (at higher frequencies) due to reduced intracellular Ca release (Fura 2-AM, field stimulation). However, Ca regulation differed in LA and RA cardiomyocytes: LA cardiomyocytes showed reduced sarcoplasmic reticulum (SR) [Ca], whereas in RA, SR [Ca] was unchanged and SR Ca 2+ -ATPase activity was increased. Sodium-calcium exchanger (NCX) activity was not significantly altered. We used ORM-10103 (3 μM), a specific NCX inhibitor to improve Ca availability in LA and RA cardiomyocytes from DOCA pigs. Partial inhibition of NCX increased Ca 2+ transient amplitude and SR Ca in LA, but not RA cells., Conclusions: In this large animal model of HHD, atrial remodelling in sinus rhythm in vivo was related to differential LA and RA cardiomyocyte dysfunction and Ca signalling. Selective acute inhibition of NCX improved Ca release in diseased LA cardiomyocytes, suggesting a potential therapeutic approach to improve atrial inotropy in HHD., (© 2020 The Authors. ESC Heart Failure published by John Wiley & Sons Ltd on behalf of European Society of Cardiology.)

Published
2021
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47. Cellular mechanisms of metabolic syndrome-related atrial decompensation in a rat model of HFpEF.

Author

Hohendanner F, Bode D, Primessnig U, Guthof T, Doerr R, Jeuthe S, Reimers S, Zhang K, Bach D, Wakula P, Pieske BM, and Heinzel FR

Subjects
Angiotensin II, Animals, Atrial Remodeling, Calcium metabolism, Calcium Signaling, Cell Nucleus metabolism, Cytosol metabolism, Disease Models, Animal, Excitation Contraction Coupling, Heart Failure complications, Heart Ventricles physiopathology, Hypertension complications, Hypertension physiopathology, Metabolic Syndrome complications, Myocytes, Cardiac metabolism, Rats, Sarcoplasmic Reticulum metabolism, Heart Atria physiopathology, Heart Failure physiopathology, Metabolic Syndrome physiopathology, Stroke Volume
Abstract

Heart failure (HF) with preserved ejection fraction (HFpEF) is present in about 50% of HF patients. Atrial remodeling is common in HFpEF and associated with increased mortality. We postulate that atrial remodeling is associated with atrial dysfunction in vivo related to alterations in cardiomyocyte Calcium (Ca) signaling and remodeling. We examined atrial function in vivo and Ca transients (CaT) (Fluo4-AM, field stim) in atrial cardiomyocytes of ZSF-1 rats without (Ln; lean hypertensive) and with metabolic syndrome (Ob; obese, hypertensive, diabetic) and HFpEF., Results: At 21weeks Ln showed an increased left ventricular (LV) mass and left ventricular end-diastolic pressure (LVEDP), but unchanged left atrial (LA) size and preserved atrial ejection fraction vs. wild-type (WT). CaT amplitude in atrial cardiomyocytes was increased in Ln (2.9±0.2 vs. 2.3±0.2F/F 0 in WT; n=22 cells/group; p<0.05). Studying subcellular Ca release in more detail, we found that local central cytosolic CaT amplitude was increased, while subsarcolemmal CaT amplitudes remained unchanged. Moreover, Sarcoplasmic reticulum (SR) Ca content (caffeine) was preserved while Ca spark frequency and tetracaine-dependent SR Ca leak were significantly increased in Ln. Ob mice developed a HFpEF phenotype in vivo, LA area was significantly increased and atrial in vivo function was impaired, despite increased atrial CaT amplitudes in vitro (2.8±0.2; p<0.05 vs. WT). Ob cells showed alterations of the tubular network possibly contributing to the observed phenotype. CaT kinetics as well as SR Ca in Ob were not significantly different from WT, but SR Ca leak remained increased. Angiotensin II (Ang II) reduced in vitro cytosolic CaT amplitudes and let to active nuclear Ca release in Ob but not in Ln or WT., Summary: In hypertensive ZSF-1 rats, a possibly compensatory increase of cytosolic CaT amplitude and increased SR Ca leak precede atrial remodeling and HFpEF. Atrial remodeling in ZSF-1 HFpEF is associated with an altered tubular network in-vitro and atrial contractile dysfunction in vivo, indicating insufficient compensation. Atrial cardiomyocyte dysfunction in vitro is induced by the addition of angiotensin II., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2018
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48. CHA2DS2-VASc score and blood biomarkers to identify patients with atrial high-rate episodes and paroxysmal atrial fibrillation.

Author

Wakula P, Neumann B, Kienemund J, Thon-Gutschi E, Stojakovic T, Manninger M, Scherr D, Scharnagl H, Kapl M, Pieske B, and Heinzel FR

Subjects
Aged, Aged, 80 and over, Atrial Fibrillation blood, Biomarkers blood, Causality, Comorbidity, Electrocardiography statistics & numerical data, Female, Germany epidemiology, Humans, Incidence, Interleukin-6 blood, Male, Reproducibility of Results, Risk Assessment methods, Sensitivity and Specificity, Serum Amyloid A Protein analysis, Stroke blood, Tissue Inhibitor of Metalloproteinase-4, Atrial Fibrillation diagnosis, Atrial Fibrillation epidemiology, Atrial Natriuretic Factor blood, Natriuretic Peptide, Brain blood, Peptide Fragments blood, Stroke diagnosis, Stroke epidemiology, Tissue Inhibitor of Metalloproteinases blood
Abstract

Aims: Paroxysmal atrial fibrillation (PAF) is often asymptomatic but nonetheless harmful. We evaluated the performance of disease-related blood biomarkers and CHA2DS2-VASc score to discriminate for PAF in patients with continuous rhythm monitoring., Methods and Results: Clinical data and blood samples were obtained from patients with dual-chamber pacemakers selected according to the absence (no&#95;AHRE) or presence of Atrial High-Rate Episodes (AHRE) >6 min in recent device history (case-control approach). We included 93 patients (n = 49 AHRE, n = 44 no&#95;AHRE). In a subgroup with high AHRE burden and confirmed PAF 15 biomarkers were evaluated (n = 19 AHRE-AF vs. n = 20 no&#95;AHRE). Significantly regulated biomarkers were then tested in all patients to distinguish no&#95;AHRE from AHRE (receiver operating characteristics analysis). Hsp27, TGFβ1, cystatin C, matrix metalloproteinases MMP-2,-3,-9, albumin, and serum uric acid were not altered in the subgroup. Tissue inhibitors of metalloproteinases (TIMP) -1,-2,-4; NT-proANP, NT-proBNP, IL-6 and serum amyloid protein A were significantly different in AHRE vs. no&#95;AHRE (subgroup and whole cohort), with best discriminatory performance for TIMP-4. Biomarkers performed better than CHADS2-VASc for AHRE discrimination. Intracardial electrograms and medical history from seven AHRE patients suggested atrial tachycardia and not AF (AHRE-AT). Four of the most relevant regulated biomarkers (TIMP-4, TIMP-2, SAA, NT-proBNP) behaved similarly in AHRE-AT and AHRE-AF. NT-proBNP >150 pg/mL indicated an odds ratio of 12.9 for AHRE. Combining two biomarkers significantly improved discrimination of AHRE., Conclusion: TIMP-4, NT-proANP, NT-proBNP were strongest associated with PAF and AHRE. The discriminatory performance of CHADS2-VASc for PAF was increased by addition of selected biomarkers., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2016. For permissions please email: journals.permissions@oup.com.)

Published
2017
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49. Novel pathomechanisms of cardiomyocyte dysfunction in a model of heart failure with preserved ejection fraction.

Author

Primessnig U, Schönleitner P, Höll A, Pfeiffer S, Bracic T, Rau T, Kapl M, Stojakovic T, Glasnov T, Leineweber K, Wakula P, Antoons G, Pieske B, and Heinzel FR

Subjects
Animals, Caffeine pharmacology, Calcium metabolism, Central Nervous System Stimulants pharmacology, Echocardiography, Heart Failure complications, Heart Failure diagnostic imaging, Hypertrophy, Left Ventricular complications, Hypertrophy, Left Ventricular diagnostic imaging, Hypertrophy, Left Ventricular physiopathology, Male, Myocytes, Cardiac metabolism, Myocytes, Cardiac physiology, Rats, Rats, Wistar, Renal Insufficiency, Chronic complications, Aniline Compounds pharmacology, Heart Failure physiopathology, Myocytes, Cardiac drug effects, Phenyl Ethers pharmacology, Renal Insufficiency, Chronic physiopathology, Sodium-Calcium Exchanger antagonists & inhibitors, Stroke Volume
Abstract

Aims: Heart failure with preserved ejection fraction (HFpEF) is increasingly common, but the underlying cellular mechanisms are not well understood. We investigated cardiomyocyte function and the role of SEA0400, an Na(+) /Ca(2+) exchanger (NCX) inhibitor in a rat model of chronic kidney disease (CKD) with HFpEF., Methods and Results: Male Wistar rats were subjected to subtotal nephrectomy (NXT) or sham operation (Sham). After 8 and 24 weeks, in vivo (haemodynamics, echocardiography) and in vitro function (LV cardiomyocyte cell shortening (CS), and Ca(2+) transients (CaT)) were determined without and with SEA0400. In a subgroup of rats, SEA0400 or vehicle was given p.o. (1 mg/kg b.w.) between week 8 and 24. NXT resulted in stable compensated CKD and HFpEF [hypertrophied left ventricle, prolonged LV isovolumetric relaxation constant TAU (IVRc TAU), elevated end diastolic pressure (EDP), increased lung weight (pulmonary congestion), and preserved LV systolic function (EF, dP/dt)]. In NXT cardiomyocytes, the amplitude of CS and CaT were unchanged but relaxation and CaT decay were progressively prolonged at 8 and 24 weeks vs. Sham, individually correlating with diastolic dysfunction in vivo. NCX forward mode activity (caffeine response) was progressively reduced, while NCX protein expression was up-regulated, suggesting increased NCX reverse mode activity in NXT. SEA0400 acutely improved relaxation in NXT in vivo and in cardiomyocytes and improved cardiac remodelling and diastolic function when given chronically., Conclusions: This model of renal HFpEF is associated with slowed relaxation of LV cardiomyocytes. Treatment with SEA0400 improved cardiomyocyte function, remodelling, and HFpEF., (© 2016 The Authors. European Journal of Heart Failure © 2016 European Society of Cardiology.)

Published
2016
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50. Exenatide exerts a PKA-dependent positive inotropic effect in human atrial myocardium: GLP-1R mediated effects in human myocardium.

Author

Wallner M, Kolesnik E, Ablasser K, Khafaga M, Wakula P, Ljubojevic S, Thon-Gutschi EM, Sourij H, Kapl M, Edmunds NJ, Kuzmiski JB, Griffith DA, Knez I, Pieske B, and von Lewinski D

Subjects
Calcium-Binding Proteins metabolism, Exenatide, Glucagon-Like Peptide-1 Receptor agonists, Glucose Transporter Type 1 metabolism, Glucose Transporter Type 4 metabolism, Guanine Nucleotide Exchange Factors metabolism, Heart Atria drug effects, Heart Ventricles drug effects, Heart Ventricles metabolism, Humans, Myocardial Contraction drug effects, Phosphorylation drug effects, Protein Transport drug effects, Signal Transduction drug effects, Cardiotonic Agents pharmacology, Cyclic AMP-Dependent Protein Kinases metabolism, Glucagon-Like Peptide-1 Receptor metabolism, Heart Atria metabolism, Myocardium metabolism, Peptides pharmacology, Venoms pharmacology
Abstract

Glucagon-like peptide-1 receptor (GLP-1R) agonists are a rapidly growing class of drugs developed for treating type-2 diabetes mellitus. Patients with diabetes carry an up to 5-fold greater mortality risk compared to non-diabetic patients, mainly as a result of cardiovascular diseases. Although beneficial cardiovascular effects have been reported, exact mechanisms of GLP-1R-agonist action in the heart, especially in human myocardium, are poorly understood. The effects of GLP-1R-agonists (exenatide, GLP-1(7-36)NH2, PF-06446009, PF-06446667) on cardiac contractility were tested in non-failing atrial and ventricular trabeculae from 72 patients. The GLP-1(7-36)NH2 metabolite, GLP-1(9-36)NH2, was also examined. In electrically stimulated trabeculae, the effects of compounds on isometric force were measured in the absence and presence of pharmacological inhibitors of signal transduction pathways. The role of β-arrestin signaling was examined using a β-arrestin partial agonist, PF-06446667. Expression levels were tested by immunoblots. Translocation of GLP-1R downstream molecular targets, Epac2, GLUT-1 and GLUT-4, were assessed by fluorescence microscopy. All tested GLP-1R-agonists significantly increased developed force in human atrial trabeculae, whereas GLP-1(9-36)NH2 had no effect. Exendin(9-39)NH2, a GLP-1R-antagonist, and H-89 blunted the inotropic effect of exenatide. In addition, exenatide increased PKA-dependent phosphorylation of phospholamban (PLB), GLUT-1 and Epac2 translocation, but not GLUT-4 translocation. Exenatide failed to enhance contractility in ventricular myocardium. Quantitative real-time PCR (qRT-PCR) revealed a significant higher GLP-1R expression in the atrium compared to ventricle. Exenatide increased contractility in a dose-dependent manner via GLP-1R/cAMP/PKA pathway and induced GLUT-1 and Epac2 translocation in human atrial myocardium, but had no effect in ventricular myocardium. Therapeutic use of GLP-1R-agonists may therefore impart beneficial effects on myocardial function and remodelling., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
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