Your search keyword '"Hamdani, Nazha"' showing total 61 results

1. Understanding Differences in Sex-Based Outcomes with Dual Antiplatelet Therapy After Percutaneous Coronary Intervention.

Author

Akin, Ibrahim, Hamdani, Nazha, and El-Battrawy, Ibrahim

Subjects

*HEMORRHAGE prevention, *CEREBROVASCULAR disease prevention, *POSTOPERATIVE care, *COMBINATION drug therapy, *CARDIOVASCULAR diseases, *MAJOR adverse cardiovascular events, *SEX distribution, *PERCUTANEOUS coronary intervention, *CLOPIDOGREL, *PLATELET aggregation inhibitors, *PREVENTIVE health services, *DISEASE complications, PREVENTION of surgical complications, CARDIOVASCULAR disease related mortality

Abstract

The article focuses on understanding sex-based differences in outcomes with dual antiplatelet therapy (DAPT) after percutaneous coronary intervention (PCI). Topics include the underrepresentation of women in clinical trials, the association between sex and adverse cardiovascular and bleeding events, and the need for a comprehensive approach considering biological, social, and environmental factors to accurately interpret these differences.

Published

2024

2. A porcine model of hypertensive cardiomyopathy: implications for heart failure with preserved ejection fraction.

Author

Schwarzl, Michael, Hamdani, Nazha, Seiler, Sebastian, Alogna, Alessio, Manninger, Martin, Reilly, Svetlana, Zirngast, Birgit, Kirsch, Alexander, Steendijk, Paul, Verderber, Jochen, Zweiker, David, Eller, Philipp, Höfler, Gerald, Schauer, Silvia, Eller, Kathrin, Maechler, Heinrich, Pieske, Burkert M., Linke, Wolfgang A., Casadei, Barbara, and Post, Heiner

Subjects

*HEART failure treatment, *HYPERTENSION, *CARDIOMYOPATHIES, *BIOACCUMULATION, *HYPERLIPIDEMIA, *LABORATORY swine, *DIET in disease

Abstract

Heart failure with preserved ejection fraction (HFPEF) evolves with the accumulation of risk factors. Relevant animal models to identify potential therapeutic targets and to test novel therapies for HFPEF are missing. We induced hypertension and hyperlipidemia in landrace pigs (n = 8) by deoxycorticosteroneacetate (DOCA, 100 mg/kg, 90-day-release subcutaneous depot) and a Western diet (WD) containing high amounts of salt, fat, cholesterol, and sugar for 12 wk. Compared with weight-matched controls (n = 8), DOCA/WDtreated pigs showed left ventricular (LV) concentric hypertrophy and left atrial dilatation in the absence of significant changes in LV ejection fraction or symptoms of heart failure at rest. The LV end-diastolic pressure-volume relationship was markedly shifted leftward. During simultaneous right atrial pacing and dobutamine infusion, cardiac output reserve and LV peak inflow velocities were lower in DOCA/WD-treated pigs at higher LV end-diastolic pressures. In LV biopsies, we observed myocyte hypertrophy, a shift toward the stiffer titin isoform N2B, and reduced total titin phosphorylation. LV superoxide production was increased, in part attributable to nitric oxide synthase (NOS) uncoupling, whereas AKT and NOS isoform expression and phosphorylation were unchanged. In conclusion, we developed a large-animal model in which loss of LV capacitance was associated with a titin isoform shift and dysfunctional NOS, in the presence of preserved LV ejection fraction. Our findings identify potential targets for the treatment of HFPEF in a relevant large-animal model. [ABSTRACT FROM AUTHOR]

Published

2015

3. Left ventricular diastolic dysfunction and myocardial stiffness in diabetic mice is attenuated by inhibition of dipeptidyl peptidase 4.

Author

Hamdani, Nazha, Hervent, Anne-Sophie, Vandekerckhove, Leni, Matheeussen, Veerle, Demolder, Marc, Baerts, Lesley, De Meester, Ingrid, Linke, Wolfgang A., Paulus, Walter J., and De Keulenaer, Gilles W.

Subjects

*LEFT heart ventricle, *TYPE 2 diabetes, *CARDIAC contraction, *LABORATORY mice, *ENZYME inhibitors, *CD26 antigen

Abstract

Aims Obesity and Type 2 diabetes mellitus (DM) induce left ventricular (LV) diastolic dysfunction, which contributes to an increasing prevalence of heart failure with a preserved LV ejection fraction. We investigated the effects of sitagliptin (SITA), an inhibitor of dipeptidylpeptidase-4 (DPP-4) and anti-diabetic drug, on LV structure and function of obese mice with Type 2 DM. Methods and results Obese Type 2 diabetic mice (Leprdb/db, BKS.Cg-Dock7m+/+ Leprdb/J), displaying increased cardiomyocyte and LV stiffness at the age of 16 weeks, were treated with SITA (300 mg/kg/day) or vehicle for 8 weeks. SITA severely impaired serum DPP-4 activity, but had no effect on glycaemia. Invasive haemodynamic recordings showed that SITA reduced LV passive stiffness and increased LV stroke volume; LV end-systolic elastance remained unchanged. In addition, SITA reduced resting tension of isolated single cardiomyocytes and intensified phosphorylation of the sarcomeric protein titin. SITA also increased LV concentrations of cGMP and increased activity of protein kinase G (PKG). In vitro activation of PKG decreased resting tension of cardiomyocytes from vehicle-treated mice, but had no effect on resting tension of cardiomyocytes from SITA-treated mice. Conclusions In obese Type 2 diabetic mice, in the absence of hypoglycaemic effects, inhibition of DPP-4 decreases LV passive stiffness and improves global LV performance. These effects seem at least partially mediated by stimulatory effects on the myocardial cGMP–PKG pathway and, hence, on the phosphorylation status of titin and the hereto coupled cardiomyocyte stiffness modulus. [ABSTRACT FROM AUTHOR]

Published

2014

4. Myocardial titin and collagen in cardiac diastolic dysfunction: partners in crime.

Author

Hamdani, Nazha and Paulus, Walter J

Published

2013

5. Myocardial Titin and Collagen in Cardiac Diastolic Dysfunction Partners in Crime.

Author

Hamdani, Nazha and Paulus, Walter J.

Subjects

*CONNECTIN, *COLLAGEN, *MUSCLE proteins, *EXTRACELLULAR matrix proteins, *CORONARY disease, *HEART failure, *PROTEIN kinases, *OXIDATION

Abstract

The authors reflect on a study which establishes myocardial titin and collagen in order to sufficiently compromise diastolic left ventricular (LV) function in inducing heart failure with preserved ejection fraction (HFPEF). They offer information about high myocardial diastolic stiffness as well as myocardial collagen deposition. Other critical topics such as protein kinase, phosphorylation, and oxidation are discussed.

Published

2013

6. Deranged myofilament phosphorylation and function in experimental heart failure with preserved ejection fraction.

Author

Hamdani, Nazha, Bishu, Kalkidan G., von Frieling-Salewsky, Marion, Redfield, Margaret M., and Linke, Wolfgang A.

Subjects

*CYTOPLASMIC filaments, *PHOSPHORYLATION, *HEART failure, *GRAFT rejection, *MORTALITY, *HYPERTENSION, *GENE expression

Abstract

Aims Heart failure (HF) with preserved ejection fraction (HFpEF) is a major cause of morbidity and mortality. Key alterations in HFpEF include increased left ventricular (LV) stiffness and abnormal relaxation. We hypothesized that myofilament protein phosphorylation and function are deranged in experimental HFpEF vs. normal myocardium. Such alterations may involve the giant elastic protein titin, which contributes decisively to LV stiffness. Methods and results LV tissue samples were procured from normal dogs (CTRL) and old dogs with hypertension-induced LV hypertrophy and diastolic dysfunction (OHT/HFpEF). We quantified the expression and phosphorylation of myofilament proteins, including all-titin and site-specific titin phosphorylation, and assessed the expression/activity of major protein kinases (PKs) and phosphatases (PPs), myofilament calcium sensitivity (pCa50), and passive tension (Fpassive) of isolated permeabilized cardiomyocytes. In OHT vs. CTRL hearts, protein kinase-G (PKG) activity was decreased, whereas PKCα activity and PP1/PP2a expression were increased. Cardiac MyBPC, TnT, TnI and MLC2 were less phosphorylated and pCa50 was increased in OHT vs. CTRL. The titin N2BA (compliant) to N2B (stiff) isoform-expression ratio was lowered in OHT. Hypophosphorylation in OHT was detected for all-titin and at serines S4010/S4099 within titin-N2Bus, whereas S11878 within proline, glutamate, valine, and lysine (PEVK)-titin was hyperphosphorylated. Cardiomyocyte Fpassive was elevated in OHT, but could be normalized by PKG or PKA, but not PKCα, treatment. Conclusions This patient-mimicking HFpEF model is characterized by titin stiffening through altered isoform composition and phosphorylation, both contributing to increased LV stiffness. Hypophosphorylation of myofilament proteins and increased calcium sensitivity suggest that functional impairment at the sarcomere level may be an early event in HFpEF. [ABSTRACT FROM AUTHOR]

Published

2013

7. Low Myocardial Protein Kinase G Activity in Heart Failure With Preserved Ejection Fraction.

Author

Van Heerebeek, Loek, Hamdani, Nazha, Falcão-Pires, Inês, Leite-Moreira, Adelino F., Begieneman, Mark P. V., Bronzwaer, Jean G. F., Van der Velden, Jolanda, Stienen, Ger J. M., Laarman, Gerrit J., Somsen, Aernout, Verheugt, Freek W. A., Niessen, Hans W. M., and Paulus, Walter J.

Subjects

*VENTRICULAR remodeling, *HEART failure, *HEART cells, *PROTEIN kinases, *NITROTYROSINE, *AORTIC stenosis

Abstract

Background-Prominent features of myocardial remodeling in heart failure with preserved ejection fraction (HFPEF) are high cardiomyocyte resting tension (Fpassive) and cardiomyocyte hypertrophy. In experimental models, both reacted favorably to raised protein kinase G (PKG) activity. The present study assessed myocardial PKG activity, its downstream effects on cardiomyocyte Fpassive and cardiomyocyte diameter, and its upstream control by cyclic guanosine monophosphate (cGMP), nitrosative/oxidative stress, and brain natriuretic peptide (BNP). To discern altered control of myocardial remodeling by PKG, HFPEF was compared with aortic stenosis and HF with reduced EF (HFREF). Methods and Results-Patients with HFPEF (n=36), AS (n=67), and HFREF (n=43) were free of coronary artery disease. More HFPEF patients were obese (P

Published

2012

8. Sildenafil and B-Type Natriuretic Peptide Acutely Phosphorylate Titin and Improve Diastolic Distensibility In Vivo.

Author

Bishu, Kalkidan, Hamdani, Nazha, Mohammed, Selma F., Kruger, Martina, Ohtani, Tomohito, Ogut, Ozgur, Brozovich, Frank V., Burnett Jr., John C., Linke, Wolfgang A., and Redfield, Margaret M.

Subjects

*SILDENAFIL, *PHOSPHORYLATION, *PROTEIN kinases, *NATRIURETIC peptides, *TROPONIN

Abstract

Background--In vitro studies suggest that phosphorylation of titin reduces myocyte/myofiber stiffness. Titin can be phosphorylated by cGMP-activated protein kinase. Intracellular cGMP production is stimulated by B-type natriuretic peptide (BNP) and degraded by phosphodiesterases, including phosphodiesterase-5A. We hypothesized that a phosphodiesterase-5A inhibitor (sildenafil) alone or in combination with BNP would increase left ventricular diastolic distensibility by phosphorylating titin. Methods and Results--Eight elderly dogs with experimental hypertension and 4 young normal dogs underwent measurement of the end-diastolic pressure-volume relationship during caval occlusion at baseline, after sildenafil, and BNP infusion. To assess diastolic distensibility independently of load/extrinsic forces, the end-diastolic volume at a common end-diastolic pressure on the sequential end-diastolic pressure-volume relationships was measured (left ventricular capacitance). In a separate group of dogs (n=7 old hypertensive and 7 young normal), serial full-thickness left ventricular biopsies were harvested from the beating heart during identical infusions to measure myofilament protein phosphorylation. Plasma cGMP increased with sildenafil and further with BNP (7.31 ±2.37 to 26.9±10.3 to 70.3±8.1 pmol/mL; P<0.001). Left ventricular diastolic capacitance increased with sildenafil and further with BNP (51.4±16.9 to 53.7±16.8 to 60.0±19.4 mL; P<0.001). Changes were similar in old hypertensive and young normal dogs. There were no effects on phosphorylation of troponin I, troponin T, phospholamban, or myosin light chain-1 or -2. Titin phosphorylation increased with sildenafil and BNP, whereas titin-based cardiomyocyte stiffness decreased. Conclusion--Short-term cGMP-enhancing treatment with sildenafil and BNP improves left ventricular diastolic distensibility in vivo, in part by phosphorylating titin. [ABSTRACT FROM AUTHOR]

Published

2011

9. Diabetes Mellitus Worsens Diastolic Left Ventricular Dysfunction in Aortic Stenosis Through Altered Myocardial Structure and Cardiomyocyte Stiffness.

Author

Falcão-Pires, Inês, Hamdani, Nazha, Borbély, Attila, Gavina, Cristina, Schalkwijk, Casper G., van der Velden, Jolanda, van Heerebeek, Loek, Stienen, Ger J. M., Niessen, Hans W. M., Leite-Moreira, Adelino F., and Paulus, Walter J.

Subjects

*DIABETES, *MUSCLE cells, *AORTIC stenosis, *HEART diseases, *MYOCARDIAL infarction, *CARDIOVASCULAR system

Abstract

Background—Aortic stenosis (AS) and diabetes mellitus (DM) are frequent comorbidities in aging populations. In heart failure, DM worsens diastolic left ventricular (LV) dysfunction, thereby adversely affecting symptoms and prognosis. Effects of DM on diastolic LV function were therefore assessed in aortic stenosis, and underlying myocardial mechanisms were identified. Methods and Results—Patients referred for aortic valve replacement were subdivided into patients with AS and no DM (AS; n=46) and patients with AS and DM (AS-DM; n= 16). Preoperative Doppler echocardiography and hemodynamics were implemented with perioperative LV biopsies. Histomorphometry and immunohistochemistry quantified myocardial collagen volume fraction and myocardial advanced glycation end product deposition. Isolated cardiomyocytes were stretched to 2.2-μm sarcomere length to measure resting tension (Fpassive). Expression and phosphorylation of titin isoforms were analyzed with gel electrophoresis with ProQ Diamond and SYPRO Ruby stains. Reduced LV end-diastolic distensibility in AS-DM was evident from higher LV end-diastolic pressure (21±1 mm Hg for AS versus 28±4 mm Hg for AS-DM; P=0.04) at comparable LV end-diastolic volume index and attributed to higher myocardial collagen volume fraction (AS, 12.9±1.1% versus AS-DM, 18.2±2.6%; P<0.001), more advanced glycation end product deposition in arterioles, venules, and capillaries (AS, 14.4±2.1 score per 1 mm2 versus AS-DM, 31.4±6.1 score per 1 mm2 P=0.03), and higher Fpassive (AS, 3.5± 1.7 kN/m2 versus AS-DM, 5.1±0.7 kN/m2 P=0.04). Significant hypophosphorylation of the stiff N2B titin isoform in AS-DM explained the higher Fpassive and normalization of Fpassive after in vitro treatment with protein kinase A. Conclusions—Worse diastolic LV dysfunction in AS-DM predisposes to heart failure and results from more myocardial fibrosis, more intramyocardial vascular advanced glycation end product deposition, and higher cardiomyocyte Fpassive, which was related to hypophosphorylation of the N2B titin isoform. [ABSTRACT FROM AUTHOR]

Published

2011

10. Sarcomeric dysfunction in heart failure.

Author

Hamdani, Nazha, Kooij, Viola, van Dijk, Sabine, Merkus, Daphne, Paulus, Walter J., Remedios, Cris dos, Duncker, Dirk J., Stienen, Ger J.M., and van der Velden, Jolanda

Subjects

*HEART failure, *PROTEOLYSIS, *PHOSPHORYLATION, *CALCIUM ions, *PROTEIN kinases

Abstract

Sarcomeric dysfunction plays a central role in reduced cardiac pump function in heart failure. This review focuses on the alterations in sarcomeric proteins in diseased myocardium that range from altered isoform expression to post-translational protein changes such as proteolysis and phosphorylation. Recent studies in animal models of heart failure and human failing myocardium converge and indicate that sarcomeric dysfunction, including altered maximum force development, Ca2+ sensitivity, and increased passive stiffness, largely originates from altered protein phosphorylation, caused by neurohumoral-induced alterations in the kinase–phosphatase balance inside the cardiomyocytes. Novel therapies, which specifically target phosphorylation sites within sarcomeric proteins or the kinases and phosphatases involved, might improve cardiac function in heart failure. [ABSTRACT FROM PUBLISHER]

Published

2008

11. Frequency-dependent myofilament Ca2+ desensitization in failing rat myocardium.

Author

Lamberts, Regis R., Hamdani, Nazha, Soekhoe, Tenoedj W., Boontje, Nicky M., Zaremba, Ruud, Walker, Lori A., de Tombe, Pieter P., van der Velden, Jolanda, and Stienen, Ger J. M.

Abstract

The positive force–frequency relation, one of the key factors modulating performance of healthy myocardium, has been attributed to an increased Ca2 + influx per unit of time. In failing hearts, a blunted, flat or negative force–frequency relation has been found. In healthy and failing hearts frequency-dependent alterations in Ca2 + sensitivity of the myofilaments, related to different phosphorylation levels of contractile proteins, could contribute to this process. Therefore, the frequency dependency of force, intracellular free Ca2 + ([Ca2 +]i), Ca2 + sensitivity and contractile protein phosphorylation were determined in control and monocrotaline-treated, failing rat hearts. An increase in frequency from 0.5 to 6 Hz resulted in an increase in force in control (14.3 ± 3.0 mN mm−2) and a decrease in force in failing trabeculae (9.4 ± 3.2 mN mm−2), whereas in both groups the amplitude of [Ca2 +]i transient increased. In permeabilized cardiomyocytes, isolated from control hearts paced at 0 and 9 Hz, Ca2 + sensitivity remained constant with frequency (pCa50: 5.55 ± 0.02 and 5.58 ± 0.01, respectively, P > 0.05), whereas in cardiomyocytes from failing hearts Ca2 + sensitivity decreased with frequency (pCa50: 5.62 ± 0.01 and 5.57 ± 0.01, respectively, P < 0.05). After incubation of the cardiomyocytes with protein kinase A (PKA) this frequency dependency of Ca2 + sensitivity was abolished. Troponin I (TnI) and myosin light chain 2 (MLC2) phosphorylation remained constant in control hearts but both increased with frequency in failing hearts. In conclusion, in heart failure frequency-dependent myofilament Ca2 + desensitization, through increased TnI phosphorylation, contributes to the negative force–frequency relation and is counteracted by a frequency-dependent MLC2 phosphorylation. We propose a novel role for PKC-mediated TnI phosphorylation in modulating the force–frequency relation. [ABSTRACT FROM AUTHOR]

Published

2007

12. PDE9A Inhibition Improves Coronary Microvascular Rarefaction and Left Ventricular Diastolic Dysfunction in the ZSF1 Rat Model of HFpEF.

Author

Fopiano, Katie Anne, Zhazykbayeva, Saltanat, El‐Battrawy, Ibrahim, Buncha, Vadym, Pearson, William M., Hardell, Davis J., Lang, Liwei, Hamdani, Nazha, and Bagi, Zsolt

Subjects

*LABORATORY rats, *HEART metabolism disorders, *VENTRICULAR dysfunction, *CORONARY disease, *HEART failure

Abstract

Objective: Heart failure with preserved ejection fraction (HFpEF) commonly arises from comorbid diseases, such as hypertension, obesity, and diabetes mellitus. Selective inhibition of phosphodiesterase 9A (PDE9A) has emerged as a potential therapeutic approach for treating cardiometabolic diseases. Coronary microvascular disease (CMD) is one of the key mechanisms contributing to the development of left ventricular (LV) diastolic dysfunction in HFpEF. Our study aimed to investigate the mechanisms by which PDE9A inhibition could ameliorate CMD and improve LV diastolic function in HFpEF. Methods and Results: The obese diabetic Zucker fatty/spontaneously hypertensive heart failure F1 hybrid (ZSF1) rat model of HFpEF was employed in which it was found that a progressively developing coronary microvascular rarefaction is associated with LV diastolic dysfunction when compared to lean, nondiabetic hypertensive controls. Obese ZSF1 rats had an increased cardiac expression of PDE9A. Treatment of obese ZSF1 rats with the selective PDE9A inhibitor, PF04447943 (3 mg/kg/day, oral gavage for 2 weeks), improved coronary microvascular rarefaction and LV diastolic dysfunction, which was accompanied by reduced levels of oxidative and nitrosative stress markers, hydrogen peroxide, and 3‐nitrotyrosine. Liquid chromatography–mass spectrometry (LC–MS) proteomic analysis identified peroxiredoxins (PRDX) as downregulated antioxidants in the heart of obese ZSF1 rats, whereas Western immunoblots showed that the protein level of PRDX5 was significantly increased by the PF04447943 treatment. Conclusions: Thus, in the ZSF1 rat model of human HFpEF, PDE9A inhibition improves coronary vascular rarefaction and LV diastolic dysfunction, demonstrating the usefulness of PDE9A inhibitors in ameliorating CMD and LV diastolic dysfunction through augmenting PRDX‐dependent antioxidant mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

13. Prognostic Implications of Coronary Artery Sclerosis in Troponin-Positive Patients with Non-Obstructive Coronary Arteries.

Author

Kreimer, Fabienne, Schlettert, Clara, Abumayyaleh, Mohammad, Akin, Ibrahim, Materzok, Daniel, Gotzmann, Michael, Schiedat, Fabian, Bogossian, Harilaos, Hijazi, Mido Max, Hamdani, Nazha, Mügge, Andreas, El-Battrawy, Ibrahim, Hemetsberger, Rayyan, and Aweimer, Assem

Subjects

*CHRONIC obstructive pulmonary disease, *CORONARY arteries, *CORONARY artery disease, *ARTERIOSCLEROSIS, *CARDIOVASCULAR diseases risk factors

Abstract

Introduction: Coronary sclerosis is a risk factor for the progression to obstructive coronary artery disease (CAD). However, understanding its impact on the outcomes of patients with myocardial infarction and non-obstructive coronary arteries is limited. This study aimed to explore the prognostic influence of coronary sclerosis on in- and out-of-hospital events in troponin-positive patients with non-obstructive coronary arteries. Methods: This study was a retrospective cohort analysis based on prospectively collected data. A total of 24,775 patients who underwent coronary angiography from 2010 to 2021 in a German university hospital were screened, resulting in a final study cohort of 373 troponin-positive patients with non-obstructive coronary arteries and a follow-up period of 6.2 ± 3.1 years. Coronary sclerosis was defined as coronary plaques without angiographically detectable stenotic lesions of 50% or more in the large epicardial coronary arteries. The primary study endpoint was the occurrence of in-hospital events. Secondary endpoints included events during follow-up. Results: Patients with coronary sclerosis were significantly older (70 ± 12 vs. 58 ± 16 years, p < 0.001), had ST-segment elevation less frequently on electrocardiogram (9.4% vs. 18.7%, p = 0.013), and suffered more often from diabetes mellitus (23.3% vs. 13.1%, p = 0.009), arterial hypertension (79.6% vs. 59.8%, p < 0.001), chronic obstructive pulmonary disease (17.1% vs. 9.4%, p = 0.028), chronic kidney disease (22.2% vs. 8.4%, p < 0.001), atrial fibrillation (19.8% vs. 12.2%, p = 0.045), and valvular diseases than patients without CAD. Patients with coronary sclerosis were more likely to receive medication for primary/secondary prevention on admission and at discharge. The incidence of in- and out-of-hospital events was significantly higher in patients with coronary sclerosis (in-hospital: 42.8% vs. 29.9%, p = 0.010; out-of-hospital: 46.0% vs. 26.1%, p < 0.001). Mortality rates tended to be higher in the coronary sclerosis group (29.4% vs. 20.0%, p = 0.066). Conclusion: Patients diagnosed with coronary sclerosis presented a higher incidence of comorbidities and increased medication use, and experienced higher rates of both in-hospital and out-of-hospital events, primarily due to the clustering of cardiovascular risk factors. [ABSTRACT FROM AUTHOR]

Published

2024

14. A mechanistic rationale for the investigation of sodium–glucose co‐transporter 2 inhibitors in heart failure with preserved ejection fraction. Letter regarding the article 'Baseline characteristics of patients with heart failure with preserved ejection fraction in the EMPEROR‐Preserved trial'

Author

Pabel, Steffen, Hamdani, Nazha, and Sossalla, Samuel

Subjects

*HEART failure patients, *EMPAGLIFLOZIN, *HEART failure

Published

2021

15. Cardiac mechanisms of the beneficial effects of SGLT2 inhibitors in heart failure: Evidence for potential off-target effects.

Author

Dyck, Jason R.B., Sossalla, Samuel, Hamdani, Nazha, Coronel, Ruben, Weber, Nina C., Light, Peter E., and Zuurbier, Coert J.

Subjects

*NEPRILYSIN, *HEART failure, *SODIUM-glucose cotransporter 2 inhibitors, *DIASTOLE (Cardiac cycle), *HEART failure patients, *ENDOTHELIUM diseases, *HEART cells

Abstract

Sodium glucose cotransporter 2 inhibitors (SGLT2i) constitute a promising drug treatment for heart failure patients with either preserved or reduced ejection fraction. Whereas SGLT2i were originally developed to target SGLT2 in the kidney to facilitate glucosuria in diabetic patients, it is becoming increasingly clear that these drugs also have important effects outside of the kidney. In this review we summarize the literature on cardiac effects of SGLT2i, focussing on pro-inflammatory and oxidative stress processes, ion transport mechanisms controlling sodium and calcium homeostasis and metabolic/mitochondrial pathways. These mechanisms are particularly important as disturbances in these pathways result in endothelial dysfunction, diastolic dysfunction, cardiac stiffness, and cardiac arrhythmias that together contribute to heart failure. We review the findings that support the concept that SGLT2i directly and beneficially interfere with inflammation, oxidative stress, ionic homeostasis, and metabolism within the cardiac cell. However, given the very low levels of SGLT2 in cardiac cells, the evidence suggests that SGLT2-independent effects of this class of drugs likely occurs via off-target effects in the myocardium. Thus, while there is still much to be understood about the various factors which determine how SGLT2i affect cardiac cells, much of the research clearly demonstrates that direct cardiac effects of these SGLT2i exist, albeit mediated via SGLT2-independent pathways, and these pathways may play a role in explaining the beneficial effects of SGLT2 inhibitors in heart failure. Graphical summary: Pathophysiology involved in HFpEF and the potential mechanisms of how SGLT2i may improve HFpEF. As comorbidities play a major role in HFpEF, the positive influence of SGLT2i on hypertension, diabetes, obesity, and hypertension is of importance. Moreover, SGLT2i can directly influence myocardial pathological processes underlying HfpEF as reported in this review. HFpEF: heart failure with preserved ejection fraction; NO: nitric oxide; SGLT2i: sodium-glucose-cotransporter 2 inhibitors. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

16. Mechanisms of myocardial reverse remodelling and its clinical significance: A scientific statement of the ESC Working Group on Myocardial Function.

Author

Falcão‐Pires, Inês, Ferreira, Ana Filipa, Trindade, Fábio, Bertrand, Luc, Ciccarelli, Michele, Visco, Valeria, Dawson, Dana, Hamdani, Nazha, Van Laake, Linda W., Lezoualc'h, Frank, Linke, Wolfgang A., Lunde, Ida G, Rainer, Peter P., Abdellatif, Mahmoud, Van der Velden, Jolanda, Cosentino, Nicola, Paldino, Alessia, Pompilio, Giulio, Zacchigna, Serena, and Heymans, Stephane

Subjects

*DIASTOLE (Cardiac cycle), *SODIUM-glucose cotransporter 2 inhibitors, *CORONARY artery bypass, *CARDIAC pacing, *HEART assist devices, *CARDIOVASCULAR diseases, *RENIN-angiotensin system

Abstract

Cardiovascular disease (CVD) is the leading cause of morbimortality in Europe and worldwide. CVD imposes a heterogeneous spectrum of cardiac remodelling, depending on the insult nature, that is, pressure or volume overload, ischaemia, arrhythmias, infection, pathogenic gene variant, or cardiotoxicity. Moreover, the progression of CVD‐induced remodelling is influenced by sex, age, genetic background and comorbidities, impacting patients' outcomes and prognosis. Cardiac reverse remodelling (RR) is defined as any normative improvement in cardiac geometry and function, driven by therapeutic interventions and rarely occurring spontaneously. While RR is the outcome desired for most CVD treatments, they often only slow/halt its progression or modify risk factors, calling for novel and more timely RR approaches. Interventions triggering RR depend on the myocardial insult and include drugs (renin–angiotensin–aldosterone system inhibitors, beta‐blockers, diuretics and sodium–glucose cotransporter 2 inhibitors), devices (cardiac resynchronization therapy, ventricular assist devices), surgeries (valve replacement, coronary artery bypass graft), or physiological responses (deconditioning, postpartum). Subsequently, cardiac RR is inferred from the degree of normalization of left ventricular mass, ejection fraction and end‐diastolic/end‐systolic volumes, whose extent often correlates with patients' prognosis. However, strategies aimed at achieving sustained cardiac improvement, predictive models assessing the extent of RR, or even clinical endpoints that allow for distinguishing complete from incomplete RR or adverse remodelling objectively, remain limited and controversial. This scientific statement aims to define RR, clarify its underlying (patho)physiologic mechanisms and address (non)pharmacological options and promising strategies to promote RR, focusing on the left heart. We highlight the predictors of the extent of RR and review the prognostic significance/impact of incomplete RR/adverse remodelling. Lastly, we present an overview of RR animal models and potential future strategies under pre‐clinical evaluation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Empagliflozin inhibits increased Na influx in atrial cardiomyocytes of patients with HFpEF.

Author

Trum, Maximilian, Riechel, Johannes, Schollmeier, Elisa, Lebek, Simon, Hegner, Philipp, Reuthner, Kathrin, Heers, Silvia, Keller, Karoline, Wester, Michael, Klatt, Susanne, Hamdani, Nazha, Provaznik, Zdenek, Schmid, Christof, Maier, Lars, Arzt, Michael, and Wagner, Stefan

Subjects

*ATRIAL arrhythmias, *HEART failure patients, *HEART failure, *ATRIAL fibrillation, *GENE expression, *SODIUM-glucose cotransporters

Abstract

Aims Heart failure with preserved ejection fraction (HFpEF) causes substantial morbidity and mortality. Importantly, atrial remodelling and atrial fibrillation are frequently observed in HFpEF. Sodium–glucose cotransporter 2 inhibitors (SGLT2i) have recently been shown to improve clinical outcomes in HFpEF, and post-hoc analyses suggest atrial anti-arrhythmic effects. We tested if isolated human atrial cardiomyocytes from patients with HFpEF exhibit an increased Na influx, which is known to cause atrial arrhythmias, and if that is responsive to treatment with the SGTL2i empagliflozin. Methods and results Cardiomyocytes were isolated from atrial biopsies of 124 patients (82 with HFpEF) undergoing elective cardiac surgery. Na influx was measured with the Na-dye Asante Natrium Green–2 AM (ANG-2). Compared to patients without heart failure (NF), Na influx was doubled in HFpEF patients (NF vs. HFpEF: 0.21 ± 0.02 vs. 0.38 ± 0.04 mmol/L/min (N = 7 vs. 18); P = 0.0078). Moreover, late INa (measured via whole-cell patch clamp) was significantly increased in HFpEF compared to NF. Western blot and HDAC4 pulldown assay indicated a significant increase in CaMKII expression, CaMKII autophosphorylation, CaMKII activity, and CaMKII-dependent NaV1.5 phosphorylation in HFpEF compared to NF, whereas NaV1.5 protein and mRNA abundance remained unchanged. Consistently, increased Na influx was significantly reduced by treatment not only with the CaMKII inhibitor autocamtide-2-related inhibitory peptide (AIP), late INa inhibitor tetrodotoxin (TTX) but also with sodium/hydrogen exchanger 1 (NHE1) inhibitor cariporide. Importantly, empagliflozin abolished both increased Na influx and late INa in HFpEF. Multivariate linear regression analysis, adjusting for important clinical confounders, revealed HFpEF to be an independent predictor for changes in Na handling in atrial cardiomyocytes. Conclusion We show for the first time increased Na influx in human atrial cardiomyocytes from HFpEF patients, partly due to increased late INa and enhanced NHE1-mediated Na influx. Empagliflozin inhibits Na influx and late INa, which could contribute to anti-arrhythmic effects in patients with HFpEF. [ABSTRACT FROM AUTHOR]

Published

2024

18. Ejection Fraction-Related Differences of Baseline Characteristics and Outcomes in Troponin-Positive Patients without Obstructive Coronary Artery Disease.

Author

Kacmaz, Mustafa, Schlettert, Clara, Kreimer, Fabienne, Abumayyaleh, Mohammad, Akin, Ibrahim, Mügge, Andreas, Aweimer, Assem, Hamdani, Nazha, and El-Battrawy, Ibrahim

Subjects

*CORONARY artery disease, *CREATINE kinase, *MYOCARDIAL infarction, *VENTRICULAR ejection fraction

Abstract

Background: The development and course of myocardial infarction with non-obstructive coronary artery (MINOCA) disease is still not fully understood. In this study, we aimed to examine the baseline characteristics of in-hospital outcomes and long-term outcomes of a cohort of troponin-positive patients without obstructive coronary artery disease based on different left ventricular ejection fractions (LVEFs). Methods and results: We included a cohort of 254 patients (mean age: 64 (50.8–75.3) years, 120 females) with suspected myocardial infarction and no obstructive coronary artery disease (MINOCA) in our institutional database between 2010 and 2021. Among these patients, 170 had LVEF ≥ 50% (84 females, 49.4%), 31 patients had LVEF 40–49% (15 females, 48.4%), and 53 patients had LVEF < 40% (20 females, 37.7%). The mean age in the LVEF ≥ 50% group was 61.5 (48–73) years, in the LVEF 40–49% group was 67 (57–78) years, and in the LVEF < 40% group was 68 (56–75.5) years (p = 0.05). The mean troponin value was highest in the LVEF < 40% group, at 3.8 (1.7–4.6) µg/L, and lowest in the LVEF ≥ 50% group, at 1.1 (0.5–2.1) µg/L (p = 0.05). Creatine Phosphokinase (CK) levels were highest in the LVEF ≥ 50% group (156 (89.5–256)) and lowest in the LVEF 40–49% group (127 (73–256)) (p < 0.05), while the mean BNP value was lowest in the LVEF ≥ 50% group (98 (48–278) pg/mL) and highest in the <40% group (793 (238.3–2247.5) pg/mL) (p = 0.001). Adverse in-hospital cardiovascular events were highest in the LVEF < 40% group compared to the LVEF 40–49% group and the LVEF ≥ 50% group (56% vs. 55% vs. 27%; p < 0.001). Over a follow-up period of 6.2 ± 3.1 years, the all-cause mortality was higher in the LVEF < 40% group compared to the LVEF 40–49% group and the LVEF ≥ 50% group. Among the different factors, LVEF < 40% and LVEF 40–49% were associated with an increased risk of in-hospital cardiovascular events in the multivariable Cox regression analysis. Conclusions: LVEF has different impacts on in-hospital cardiovascular events in this cohort. Furthermore, LVEF influences long-term all-cause mortality. [ABSTRACT FROM AUTHOR]

Published

2024

19. Protein Kinase D Plays a Crucial Role in Maintaining Cardiac Homeostasis by Regulating Post-Translational Modifications of Myofilament Proteins.

Author

Herwig, Melissa, Begovic, Merima, Budde, Heidi, Delalat, Simin, Zhazykbayeva, Saltanat, Sieme, Marcel, Schneider, Luca, Jaquet, Kornelia, Mügge, Andreas, Akin, Ibrahim, El-Battrawy, Ibrahim, Fielitz, Jens, and Hamdani, Nazha

Subjects

*CONNECTIN, *HOMEOSTASIS, *POST-translational modification, *PROTEIN kinases, *CARRIER proteins, *CARDIAC contraction, *TUMOR necrosis factors, *TROPONIN I

Abstract

Protein kinase D (PKD) enzymes play important roles in regulating myocardial contraction, hypertrophy, and remodeling. One of the proteins phosphorylated by PKD is titin, which is involved in myofilament function. In this study, we aimed to investigate the role of PKD in cardiomyocyte function under conditions of oxidative stress. To do this, we used mice with a cardiomyocyte-specific knock-out of Prkd1, which encodes PKD1 (Prkd1loxP/loxP; αMHC-Cre; PKD1 cKO), as well as wild type littermate controls (Prkd1loxP/loxP; WT). We isolated permeabilized cardiomyocytes from PKD1 cKO mice and found that they exhibited increased passive stiffness (Fpassive), which was associated with increased oxidation of titin, but showed no change in titin ubiquitination. Additionally, the PKD1 cKO mice showed increased myofilament calcium (Ca2+) sensitivity (pCa50) and reduced maximum Ca2+-activated tension. These changes were accompanied by increased oxidation and reduced phosphorylation of the small myofilament protein cardiac myosin binding protein C (cMyBPC), as well as altered phosphorylation levels at different phosphosites in troponin I (TnI). The increased Fpassive and pCa50, and the reduced maximum Ca2+-activated tension were reversed when we treated the isolated permeabilized cardiomyocytes with reduced glutathione (GSH). This indicated that myofilament protein oxidation contributes to cardiomyocyte dysfunction. Furthermore, the PKD1 cKO mice exhibited increased oxidative stress and increased expression of pro-inflammatory markers interleukin (IL)-6, IL-18, and tumor necrosis factor alpha (TNF-α). Both oxidative stress and inflammation contributed to an increase in microtubule-associated protein 1 light chain 3 (LC3)-II levels and heat shock response by inhibiting the mammalian target of rapamycin (mTOR) in the PKD1 cKO mouse myocytes. These findings revealed a previously unknown role for PKD1 in regulating diastolic passive properties, myofilament Ca2+ sensitivity, and maximum Ca2+-activated tension under conditions of oxidative stress. Finally, we emphasized the importance of PKD1 in maintaining the balance of oxidative stress and inflammation in the context of autophagy, as well as cardiomyocyte function. [ABSTRACT FROM AUTHOR]

Published

2024

20. Acute heart failure: mechanisms and pre-clinical models—a Scientific Statement of the ESC Working Group on Myocardial Function.

Author

Ciccarelli, Michele, Pires, Inês Falcão, Bauersachs, Johann, Bertrand, Luc, Beauloye, Christophe, Dawson, Dana, Hamdani, Nazha, Hilfiker-Kleiner, Denise, Laake, Linda W van, Lezoualc'h, Frank, Linke, Wolfgang A, Lunde, Ida G, Rainer, Peter P, Rispoli, Antonella, Visco, Valeria, Carrizzo, Albino, Ferro, Matteo Dal, Stolfo, Davide, van der Velden, Jolanda, and Zacchigna, Serena

Subjects

*ANIMAL models in research, *DRUG target, *HEART failure, *ETIOLOGY of diseases

Abstract

While chronic heart failure (CHF) treatment has considerably improved patient prognosis and survival, the therapeutic management of acute heart failure (AHF) has remained virtually unchanged in the last decades. This is partly due to the scarcity of pre-clinical models for the pathophysiological assessment and, consequently, the limited knowledge of molecular mechanisms involved in the different AHF phenotypes. This scientific statement outlines the different trajectories from acute to CHF originating from the interaction between aetiology, genetic and environmental factors, and comorbidities. Furthermore, we discuss the potential molecular targets capable of unveiling new therapeutic perspectives to improve the outcome of the acute phase and counteracting the evolution towards CHF. [ABSTRACT FROM AUTHOR]

Published

2023

21. RELATIVE IMPORTANCE OF TITIN AND COLLAGEN FOR MYOCARDIAL STIFFNESS IN METABOLIC RISK-INDUCED HEART FAILURE WITH PRESERVED EJECTION FRACTION

Author

Franssen, Constantin, Hamdani, Nazha, Ottenheijm, Coen A., and Paulus, Walter J.

Published

2013

22. From comorbidities to heart failure with preserved ejection fraction: a story of oxidative stress.

Author

Franssen, Constantijn, Chen, Sophia, Hamdani, Nazha, and Paulus, Walter J.

Subjects

*HEART failure, *PATHOLOGICAL physiology, *OXIDATIVE stress, *INFLAMMATION, *HEART cells, *ANTI-inflammatory agents, *THERAPEUTIC use of antioxidants, *HEART metabolism, *CARDIOVASCULAR agents, *CELLULAR signal transduction, *INFLAMMATORY mediators, *MYOCARDIUM, *PROGNOSIS, *COMORBIDITY, *STROKE volume (Cardiac output), *THERAPEUTICS

Abstract

The article discusses issues concerning the pathophysiology and diagnosis of heart failure with preserved ejection fraction (HFpEF). Topics covered include the role of oxidative stress and endothelial inflammation as pathophysiological mechanisms, structural changes in HFpEF myocardium, functional changes in cardiomyocytes and treatment strategies.

Published

2016

23. Small conductance calcium-activated potassium channel contributes to stress induced endothelial dysfunctions.

Author

Yang, Zhen, Li, Yingrui, Huang, Mengying, Li, Xin, Fan, Xuehui, Yan, Chen, Meng, Zenghui, Liao, Bin, Hamdani, Nazha, El-Battrawy, Ibrahim, Yang, Xiaoli, Zhou, Xiaobo, and Akin, Ibrahim

Abstract

Patients with Takotsubo syndrome displayed endothelial dysfunction, but underlying mechanisms have not been fully clarified. This study aimed to explore molecular signalling responsible for catecholamine excess induced endothelial dysfunction. Human cardiac microvascular endothelial cells were challenged by epinephrine to mimic catecholamine excess. Patch clamp, FACS, ELISA, PCR, and immunostaining were employed for the study. Epinephrine (Epi) enhanced small conductance calcium-activated potassium channel current (I SK1 – 3) through activating α1 adrenoceptor. Phenylephrine enhanced edothelin-1 (ET-1) and reactive oxygen species (ROS) production, and the effects involved contribution of I SK1 – 3. H 2 O 2 enhanced I SK1 – 3 and ET-1 production. Enhancing I SK1 – 3 caused a hyperpolarization, which increases ROS and ET-1 production. BAPTA partially reduced phenylephrine-induced enhancement of ET-1 and ROS, suggesting that α1 receptor activation can enhance ROS/ET-1 generation in both calcium-dependent and calcium-independent ways. The study demonstrates that high concentration catecholamine can activate SK1–3 channels through α1 receptor-ROS signalling and increase ET-1 production, facilitating vasoconstriction. Roles of alpha 1 receptor, ROS, and SK1–3 channels in catecholamine induced endothelial dysfunction. In catecholamine excess, alpha 1 receptor in endothelial cells is activated and then NADPH is activated. NADPH increases ROS generation. Increased ROS level leads to 1) increase in ET-1 production and 2) activation of SK1–3 channels. The activation of SK1–3 channels causes membrane hyperpolarization. The hyperpolarization in endothelial cell can enhance the driving force for calcium influx through calcium conducting channel like TRP channel, resulting in an increase in Ca2+-influx. At the same time, the hyperpolarization can also directly hyperpolarize smooth muscle though gap-junctions and in turn may reduce smooth muscle contraction. The increased calcium influx can stimulate generation of ET-1 and ROS, and also SK channels (here is a positive feedback regulation). ET-1 released from endothelial cells stimulates ETA receptors on smooth muscle cells and lead to cell contraction. In catecholamine excess, the effect of ET-1 may overcome the hyperpolarization effect on smooth muscle, leading to vasoconstriction. Epi, epinephrine; alpha-1, alpha-1 adrenoceptor; SK, SK1–3 channels; TRP, TRP channel; HP, hyperpolarization; GJ, gap-junction; ETA, ET-1 receptor; NADPH, NADPH oxidases; ROS, reactive oxygen species. [Display omitted] • Epinephrine can activate SK1–3 channel in endothelial cells via alpha 1 receptor signalling. • SK1–3 channels contribute to alpha 1 receptor activation induced ROS/ET-1 generation. • ROS can enhance ET-1 generation in calcium dependent- and independent ways. • SK1–3 channels are important for catecholamine excess induced endothelial dysfunction. [ABSTRACT FROM AUTHOR]

Published

2024

24. Human myocytes are protected from titin aggregation-induced stiffening by small heat shock proteins.

Author

Kötter, Sebastian, Unger, Andreas, Hamdani, Nazha, Lang, Patrick, Vorgerd, Matthias, Nagel-Steger, Luitgard, and Linke, Wolfgang A.

Subjects

*HEAT shock proteins, *PROTEINS, *MUSCLE cells, *CELLS, *AMINO acids

Abstract

In myocytes, small heat shock proteins (sHSPs) are preferentially translocated under stress to the sarcomeres. The functional implications of this translocation are poorly understood. We show here that HSP27 and αB-crystallin associated with immunoglobulin-like (Ig) domain-containing regions, but not the disordered PEVK domain (titin region rich in proline, glutamate, valine, and lysine), of the titin springs. In sarcomeres, sHSP binding to titin was actin filament independent and promoted by factors that increased titin Ig unfolding, including sarcomere stretch and the expression of stiff titin isoforms. Titin spring elements behaved predominantly as monomers in vitro. However, unfolded Ig segments aggregated, preferentially under acidic conditions, and αB-crystallin prevented this aggregation. Disordered regions did not aggregate. Promoting titin Ig unfolding in cardiomyocytes caused elevated stiffness under acidic stress, but HSP27 or αB-crystallin suppressed this stiffening. In diseased human muscle and heart, both sHSPs associated with the titin springs, in contrast to the cytosolic/ Z-disk localization seen in healthy muscle/heart. We conclude that aggregation of unfolded titin Ig domains stiffens myocytes and that sHSPs translocate to these domains to prevent this aggregation. [ABSTRACT FROM AUTHOR]

Published

2014

25. Failure to detect SARS-CoV-2 at RNA and protein level in the sweat of patients with COVID-19.

Author

Gambichler, Thilo, Goesmann, Silke, Korte, Vera, Skrygan, Marina, Harnischfeger, Friederike, Scheel, Christina H, Hamdani, Nazha, Budde, Heidi, Sieme, Marcel, Becker, Jüergen C, and Schmidt, Wolfgang

Subjects

*COVID-19, *SARS-CoV-2, *SARS-CoV-2 Omicron variant, *SARS-CoV-2 Delta variant, *VASCULAR endothelium

Abstract

Finally, yet another study analysed sweat samples taken from the forehead and axillae of 50 patients with COVID-19.[5] Again, using qRT-PCR, SARS-CoV-2 virus RNA could not be detected in any of the samples investigated. Https://doi.org/10.1093/bjd/ljac123 Dear Editor, The SARS-CoV-2 spike protein has been detected in the secretory cells of sweat glands in skin lesions of patients with COVID-19.[1],[2] This raised the possibility that SARS-CoV-2 may be transmitted via sweat. [Extracted from the article]

Published

2023

26. Catecholamine induces endothelial dysfunction via Angiotensin II and intermediate conductance calcium activated potassium channel.

Author

Fan, Xuehui, Yang, Guoqiang, Yang, Zhen, Uhlig, Stefanie, Sattler, Katherine, Bieback, Karen, Hamdani, Nazha, El-Battrawy, Ibrahim, Duerschmied, Daniel, Zhou, Xiaobo, and Akin, Ibrahim

Subjects

*ENDOTHELIUM diseases, *POTASSIUM channels, *ANGIOTENSIN II, *CELL receptors, *MEMBRANE potential, *PROTEIN kinases

Abstract

Endothelial dysfunction contributes to the pathogenesis of Takotsubo syndrome (TTS). However, the exact mechanism underlying endothelial dysfunction in the setting of TTS has not been completely clarified. This study aims to investigate the roles of angiotensin II (Ang II) and intermediate-conductance Ca2+-activated K+ (SK4) channels in catecholamine-induced endothelial dysfunction. Human cardiac microvascular endothelial cells (HCMECs) were exposed to 100 µM epinephrine (Epi), mimicking the setting of TTS. Epi treatment increased the ET-1 concentration and reduced NO levels in HCMECs. Importantly, the effects of Epi were found to be mitigated in the presence of Ang II receptor blockers. Furthermore, Ang II mimicked Epi effects on ET-1 and NO production. Additionally, Ang II inhibited tube formation and increased cell apoptosis. The effects of Ang II could be reversed by an SK4 activator NS309 and mimicked by an SK4 channel blocker TRAM-34. Ang II also inhibited the SK4 channel current (I SK4) without affecting its expression level. Ang II could depolarize the cell membrane potential. Ang II promoted ROS release and reduced protein kinase A (PKA) expression. A ROS blocker prevented Ang II effect on I SK4. The PKA activator Sp-8-Br-cAMPS increased SK4 channel currents. Epinephrine enhanced the activity of ACE by activating the α1 receptor/Gq/PKC signal pathway, thereby promoting the secretion of Ang II. The study suggested that high-level catecholamine can increase Ang II release from endothelial cells by α1 receptors/Gq/PKC signal pathway. Ang II can inhibit SK4 channel current by increasing ROS generation and reducing PKA expression, thereby contributing to endothelial dysfunction. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

27. Symphony of surprises: Unveiling organ interactions in Takotsubo Syndrome.

Author

Strohleit, Daniel, Aweimer, Assem, Akin, Ibrahim, Hamdani, Nazha, and El-Battrawy, Ibrahim

Published

2024

28. Mural cell dysfunction promotes coronary blood vessel remodelling and contributes to diastolic dysfunction in mice.

Author

Grootaert, Mandy, Pasut, Alessandra, Raman, Jana, Simmonds, Steven, Col, Umare, Hamdani, Nazha, Carmeliet, Peter, Heymans, Stephane, and Jones, Elizabeth

Subjects

*CORONARY arteries, *BLOOD vessels, *MURAL art, *MICE

Published

2024

29. Reorganization of the actin cytoskeleton during the formation of neutrophil extracellular traps (NETs).

Author

Mannherz, Hans Georg, Budde, Heidi, Jarkas, Muhammad, Hassoun, Roua, Malek-Chudzik, Natalia, Mazur, Antonina J., Skuljec, Jelena, Pul, Refik, Napirei, Markus, and Hamdani, Nazha

Subjects

*CYTOSKELETON, *CYTOSKELETAL proteins, *LEUCOCYTE elastase, *CARRIER proteins, *THYMOSIN, *ELASTASES, *MYOSIN

Abstract

We analyzed actin cytoskeleton alterations during NET extrusion by neutrophil-like dHL-60 cells and human neutrophils in the absence of DNase1 containing serum to avoid chromatin degradation and microfilament disassembly. NET-formation by dHL-60 cells and neutrophils was induced by Ionomycin or phorbol-12-myristat-13-acetate (PMA). Subsequent staining with anti-actin and TRITC-phalloidin showed depolymerization of the cortical F-actin at spatially confined areas, the NET extrusion sites, effected by transient activation of the monooxygenase MICAL-1 supported by the G-actin binding proteins cofilin, profilin, thymosin ß4 and probably the F-actin fragmenting activity of gelsolin and/or its fragments, which also decorated the formed NETs. MICAL-1 itself appeared to be proteolyzed by neutrophil elastase possibly to confine its activity to the NET-extrusion area. The F-actin oxidization activity of MICAL-1 is inhibited by Levosimendan leading to reduced NET-formation. Anti-gasdermin-D immunohistochemistry showed a cytoplasmic distribution in non-stimulated cells. After stimulation the NET-extrusion pore displayed reduced anti-gasdermin-D staining but accumulated underneath the plasma membrane of the remaining cell body. A similar distribution was observed for myosin that concentrated together with cortical F-actin along the periphery of the remaining cell body suggesting force production by acto-myosin interactions supporting NET expulsion as indicated by the inhibitory action of the myosin ATPase inhibitor blebbistatin. Isolated human neutrophils displayed differences in their content of certain cytoskeletal proteins. After stimulation neutrophils with high gelsolin content preferentially formed "cloud"-like NETs, whereas those with low or no gelsolin formed long "filamentous" NETs. • Actin cytoskeleton alterations during NET extrusion by neutrophil-like dHL-60 cells and human neutrophils were analyzed in the absence of DNase1 containing serum to avoid chromatin degradation and microfilament disassembly. F-actin fragmenting activity by the monooxygenase MICAL-1 supported by the G-actin binding proteins gelsolin cofilin, profilin, and thymosin ß4 was identified to be essential for NET-extrusion. [ABSTRACT FROM AUTHOR]

Published

2024

30. Nicotinic‐acid derivative BGP‐15 improves diastolic function in a rabbit model of atherosclerotic cardiomyopathy.

Author

Priksz, Daniel, Lampe, Nora, Kovacs, Arpad, Herwig, Melissa, Bombicz, Mariann, Varga, Balazs, Wilisicz, Tician, Szilvassy, Judit, Posa, Aniko, Kiss, Rita, Gesztelyi, Rudolf, Raduly, Arnold, Szekeres, Reka, Sieme, Marcel, Papp, Zoltan, Toth, Attila, Hamdani, Nazha, Szilvassy, Zoltan, and Juhasz, Bela

Subjects

*CONNECTIN, *CGMP-dependent protein kinase, *CYCLIC guanylic acid, *ENZYME-linked immunosorbent assay, *CARDIOMYOPATHIES

Abstract

Background and Purpose: The small molecule BGP‐15 has been reported to alleviate symptoms of heart failure and improve muscle function in murine models. Here, we investigated the acute and chronic effects of BGP‐15 in a rabbit model of atherosclerotic cardiomyopathy. Experimental Approach Rabbits were maintained on standard chow (control) or atherogenic diet (hypercholesterolemic) for 16 weeks. BGP‐15 was administered intravenously (once) or orally (for 16 weeks), to assess acute and chronic effects. Cardiac function was evaluated by echocardiography, endothelium‐dependent vasorelaxation was assessed and key molecules in the protein kinase G (PKG) pathway were examined by enzyme‐linked immunosorbent assay (ELISA) and western blot. Passive force generation was investigated in skinned cardiomyocytes. Key Results: Both acute and chronic BGP‐15 treatments improved the diastolic performance of the diseased heart. However, vasorelaxation and serum lipid markers were unaffected. Myocardial cyclic guanosine monophosphate (cGMP) levels were elevated in the BGP‐15‐treated group, along with preserved PKG activity and increased phospholamban Ser16‐phosphorylation. PDE5 expression decreased in the BGP‐15‐treated group and PDE1 was inhibited. Cardiomyocyte passive tension reduced in BGP‐15‐treated rabbits, the ratio of titin N2BA/N2B isoforms increased and PKG‐dependent N2B‐titin phosphorylation elevated. Conclusions and Implications: BGP‐15 treatment improves diastolic function, reduces cardiomyocyte stiffness and restores titin compliance in a rabbit model of atherosclerotic cardiomyopathy by increasing the activity of the cGMP‐PKG pathway. As BGP‐15 has been proven to be safe, it may be clinically useful in the treatment of diastolic dysfunction. [ABSTRACT FROM AUTHOR]

Published

2022

31. Functional Characterization of Cardiac Actin Mutants Causing Hypertrophic (p.A295S) and Dilated Cardiomyopathy (p.R312H and p.E361G).

Author

Hassoun, Roua, Erdmann, Constanze, Schmitt, Sebastian, Fujita-Becker, Setsuko, Mügge, Andreas, Schröder, Rasmus R., Geyer, Matthias, Borbor, Mina, Jaquet, Kornelia, Hamdani, Nazha, and Mannherz, Hans Georg

Subjects

*DILATED cardiomyopathy, *ACTIN, *HYPERTROPHIC cardiomyopathy, *TROPONIN, *CARRIER proteins, *MYOSIN, *CALMODULIN

Abstract

Human wild type (wt) cardiac α-actin and its mutants p.A295S or p.R312H and p.E361G correlated with hypertrophic or dilated cardiomyopathy, respectively, were expressed by using the baculovirus/Sf21 insect cell system. The c-actin variants inhibited DNase I, indicating maintenance of their native state. Electron microscopy showed the formation of normal appearing actin filaments though they showed mutant specific differences in length and straightness correlating with their polymerization rates. TRITC-phalloidin staining showed that p.A295S and p.R312H exhibited reduced and the p.E361G mutant increased lengths of their formed filaments. Decoration of c-actins with cardiac tropomyosin (cTm) and troponin (cTn) conveyed Ca2+-sensitivity of the myosin-S1 ATPase stimulation, which was higher for the HCM p.A295S mutant and lower for the DCM p.R312H and p.E361G mutants than for wt c-actin. The lower Ca2+-sensitivity of myosin-S1 stimulation by both DCM actin mutants was corrected by the addition of levosimendan. Ca2+-dependency of the movement of pyrene-labeled cTm along polymerized c-actin variants decorated with cTn corresponded to the relations observed for the myosin-S1 ATPase stimulation though shifted to lower Ca2+-concentrations. The N-terminal C0C2 domain of cardiac myosin-binding protein-C increased the Ca2+-sensitivity of the pyrene-cTM movement of bovine, recombinant wt, p.A295S, and p.E361G c-actins, but not of the p.R312H mutant, suggesting decreased affinity to cTm. [ABSTRACT FROM AUTHOR]

Published

2022

32. Effect of bupivacaine on sevoflurane-induced preconditioning in isolated rat hearts

Author

Bouwman, R. Arthur, Vreden, M. Jumoke A., Hamdani, Nazha, Wassenaar, Lisan E.J., Smeding, Lonneke, Loer, Stephan A., Stienen, Ger J.M., and Lamberts, Regis R.

Subjects

*ANILIDES, *METHYL ether, *ANESTHETICS, *LABORATORY rats, *ISCHEMIA, *REPERFUSION injury, *BLOOD plasma, *PHOSPHORYLATION

Abstract

Abstract: Volatile anesthetics protect the heart against ischemia–reperfusion injury. As an adjunct to general anesthesia, local and regional application of bupivacaine is often used. However, systemic plasma levels of bupivacaine might be cardiodepressant and interfere with sevoflurane-induced cardioprotection. Effects of bupivacaine on sevoflurane-induced cardioprotection were assessed in isolated Langendorff-perfused rat hearts subjected to 35min of global ischemia followed by 60min reperfusion. Hearts (n=40) were randomized to different groups: 1. Control; 2. Bupivacaine: addition of 0.125 or 1.0μg/ml bupivacaine to the perfusate for 40min prior to ischemia–reperfusion; 3. Sevoflurane: preconditioning induced by three times 5-min episodes of sevoflurane (2.5vol.%) prior to ischemia–reperfusion; 4. Bupivacaine-sevoflurane: combined application of bupivacaine and sevoflurane. After ischemia–reperfusion, cardioprotection was assessed from infarct size and recovery of ventricular function, and phosphorylation levels of glycogen synthase kinase 3β (GSK3β) and 5''AMP activated protein kinase (AMPK) were determined. Infarct size was reduced in the sevoflurane and bupivacaine-sevoflurane groups (Sevo: 23±7% and Bupi-Sevo: 23±5% vs. Control: 59±6%, P<0.05). In the bupivacaine group infarct size was reduced as well (34±3%). In the sevoflurane and bupivacaine-sevoflurane groups the recovery of left ventricular function (+dP/dt) was improved (Sevo: 59±2% and Bupi-Sevo: 59±2% vs. Control: 47±3%, P<0.05), but not in the bupivacaine group (48±3%). AMPK and GSK3β phosphorylation were increased by sevoflurane but not by bupivacaine. Sevoflurane-induced cardioprotection was not affected by bupivacaine in the non-cardiotoxic range. Bupivacaine alone also reduced infarct size. Both anesthetics activated different signaling kinases, indicating the existence of different cardioprotective intracellular signaling cascades. [Copyright &y& Elsevier]

Published

2010

33. Reciprocal organ interactions during heart failure: a position paper from the ESC Working Group on Myocardial Function.

Author

Ciccarelli, Michele, Dawson, Dana, Falcao-Pires, Inês, Giacca, Mauro, Hamdani, Nazha, Heymans, Stéphane, Hooghiemstra, Astrid, Leeuwis, Annebet, Hermkens, Dorien, Tocchetti, Carlo Gabriele, van der Velden, Jolanda, Zacchigna, Serena, and Thum, Thomas

Subjects

*HEART failure, *AEROBIC capacity, *VENTRICULAR ejection fraction, *SYMPTOMS, *BLOOD flow, *ETIOLOGY of diseases

Abstract

Heart failure—either with reduced or preserved ejection fraction (HFrEF/HFpEF)—is a clinical syndrome of multifactorial and gender-dependent aetiology, indicating the insufficiency of the heart to pump blood adequately to maintain blood flow to meet the body's needs. Typical symptoms commonly include shortness of breath, excessive fatigue with impaired exercise capacity, and peripheral oedema, thereby alluding to the fact that heart failure is a syndrome that affects multiple organ systems. Patients suffering from progressed heart failure have a very limited life expectancy, lower than that of numerous cancer types. In this position paper, we provide an overview regarding interactions between the heart and other organ systems, the clinical evidence, underlying mechanisms, potential available or yet-to-establish animal models to study such interactions and finally discuss potential new drug interventions to be developed in the future. Our working group suggests that more experimental research is required to understand the individual molecular mechanisms underlying heart failure and reinforces the urgency for tailored therapeutic interventions that target not only the heart but also other related affected organ systems to effectively treat heart failure as a clinical syndrome that affects and involves multiple organs. [ABSTRACT FROM AUTHOR]

Published

2021

34. Cardiac damage and tropism of severe acute respiratory syndrome coronavirus 2.

Author

Tangos, Melina, Jarkas, Muhammad, Akin, Ibrahim, El-Battrawy, Ibrahim, and Hamdani, Nazha

Subjects

*SARS-CoV-2, *COVID-19, *POST-acute COVID-19 syndrome

Abstract

Until now, the World Health Organization registered over 771 million cases of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection worldwide, of which 6.97 million resulted in death. Virus-related cardiovascular events and pre-existing heart problems have been identified as major contributing factors to global infection-related morbidity and mortality, emphasizing the necessity for risk assessment and future prevention. In this review, we highlight cardiac manifestations that might arise from an infection with SARS-CoV-2 and provide an overview of known comorbidities that worsen the outcome. Additionally, we aim to summarize the therapeutic strategies proposed to reverse virus-associated myocardial damage, which will be further highlighted in this review, with an outlook to successful recovery and prevention. [Display omitted] • Myocardial damage is a typical cardiac manifestation following SARS-CoV-2 infection. • Mechanisms include inflammation, oxidative stress, innate immune response, apoptosis. • Age, gender, pre-existing heart problems, comorbidities predict in-hospital mortality. • Healthy diets and physical activity can alleviate the risk of developing long COVID. [ABSTRACT FROM AUTHOR]

Published

2024

35. Prophylactic, single-drug cardioprotection in a comparative, experimental study of doxorubicin-induced cardiomyopathy.

Author

Lódi, Mária, Bánhegyi, Viktor, Bódi, Beáta, Gyöngyösi, Alexandra, Kovács, Árpád, Árokszállási, Anita, Hamdani, Nazha, Fagyas, Miklós, Édes, István, Csanádi, Zoltán, Czuriga, István, Kisvárday, Zoltán, Lekli, István, Bai, Péter, Tóth, Attila, Papp, Zoltán, and Czuriga, Dániel

Subjects

*ALDOSTERONE antagonists, *DOXORUBICIN, *MYOCARDIAL reperfusion, *CARDIOVASCULAR diseases risk factors, *ACE inhibitors, *CARDIOMYOPATHIES, *INVESTIGATIONAL therapies, *VENTRICULAR ejection fraction

Abstract

Background: Cardiomyopathy is a common side effect of doxorubicin (DOX) chemotherapy. Despite intensive research efforts in the field, there is still no evidence available for routine cardioprotective prophylaxis to prevent cardiotoxicity in the majority of oncological patients at low risk of cardiovascular disease. We have recently demonstrated the advantages of a prophylactic, combined heart failure therapy in an experimental model of DOX-induced cardiomyopathy. In the current work, we focus on individually applied prophylactic medications studied in the same translational environment to clarify their distinct roles in the prevention of DOX cardiotoxicity.Methods: Twelve-week-old male Wistar rats were divided into 5 subgroups. Prophylactic β-blocker (BB, bisoprolol), angiotensin-converting enzyme inhibitor (ACEI, perindopril) or aldosterone antagonist (AA, eplerenone) treatments were applied 1 week before DOX administration, then 6 cycles of intravenous DOX chemotherapy were administered. Rats receiving only intravenous DOX or saline served as positive and negative controls. Blood pressure, heart rate, body weight, and echocardiographic parameters were monitored in vivo. Two months after the last DOX administration, the animals were sacrificed, and their heart and serum samples were frozen in liquid nitrogen for histological, mechanical, and biochemical measurements.Results: All prophylactic treatments increased the survival of DOX-receiving animals. The lowest mortality rates were seen in the BB and ACEI groups. The left ventricular ejection fraction was only preserved in the BB group. The DOX-induced increase in the isovolumetric relaxation time could not be prevented by any prophylactic treatment. A decreased number of apoptotic nuclei and a preserved myocardial ultrastructure were found in all groups receiving prophylactic cardioprotection, while the DOX-induced fibrotic remodelling and the increase in caspase-3 levels could only be substantially prevented by the BB and ACEI treatments.Conclusion: Primary prophylaxis with cardioprotective agents like BB or ACEI has a key role in the prevention of DOX-induced cardiotoxicity in healthy rats. Future human studies are necessary to implement this finding in the clinical management of oncological patients free of cardiovascular risk factors. [ABSTRACT FROM AUTHOR]

Published

2020

36. Long-term effects of empagliflozin on excitation-contraction-coupling in human induced pluripotent stem cell cardiomyocytes.

Author

Pabel, Steffen, Reetz, Florian, Dybkova, Nataliya, Shomroni, Orr, Salinas, Gabriela, Mustroph, Julian, Hammer, Karin P., Hasenfuss, Gerd, Hamdani, Nazha, Maier, Lars S., Streckfuss-Bömeke, Katrin, and Sossalla, Samuel

Subjects

*PLURIPOTENT stem cells, *INDUCED pluripotent stem cells, *SODIUM-glucose cotransporter 2 inhibitors, *MEMBRANE potential, *TREATMENT effectiveness

Abstract

The SGLT2 inhibitor empagliflozin improved cardiovascular outcomes in patients with diabetes. As the cardiac mechanisms remain elusive, we investigated the long-term effects (up to 2 months) of empagliflozin on excitation-contraction (EC)-coupling in human cardiomyocytes derived from induced pluripotent stem cells (iPSC-CM) in a blinded manner. IPSC from 3 donors, differentiated into pure iPSC-CM (4 differentiations), were treated with a clinically relevant concentration of empagliflozin (0.5 μmol/l) or vehicle control. Treatment, data acquisition, and analysis were conducted externally blinded. Epifluorescence microscopy measurements in iPSC-CM showed that empagliflozin has neutral effects on Ca2+ transient amplitude, diastolic Ca2+ levels, Ca2+ transient kinetics, or sarcoplasmic Ca2+ load after 2 weeks or 8 weeks of treatment. Confocal microscopy determining possible effects on proarrhythmogenic diastolic Ca2+ release events showed that in iPSC-CM, Ca2+ spark frequency and leak was not altered after chronic treatment with empagliflozin. Finally, in patch-clamp experiments, empagliflozin did not change action potential duration, amplitude, or resting membrane potential compared with vehicle control after long-term treatment. Next-generation RNA sequencing (NGS) and mapped transcriptome profiles of iPSC-CMs untreated and treated with empagliflozin for 8 weeks showed no differentially expressed EC-coupling genes. In line with NGS data, Western blots indicate that empagliflozin has negligible effects on key EC-coupling proteins. In this blinded study, direct treatment of iPSC-CM with empagliflozin for a clinically relevant duration of 2 months did not influence cardiomyocyte EC-coupling and electrophysiology. Therefore, it is likely that other mechanisms independent of cardiomyocyte EC-coupling are responsible for the beneficial treatment effect of empagliflozin. Key messages: This blinded study investigated the clinically relevant long-term effects (up to 2 months) of empagliflozin on cardiomyocyte excitation-contraction (EC)-coupling. Human cardiomyocytes derived from induced pluripotent stem cells (iPSC-CM) were used to study a human model including a high repetition number of experiments. Empagliflozin has neutral effects on cardiomyocyte Ca2+ transients, sarcoplasmic Ca2+ load, and diastolic sarcoplasmic Ca2+ leak. In patch-clamp experiments, empagliflozin did not change the action potential. Next-generation RNA sequencing, mapped transcriptome profiles, and Western blots of iPSC-CM untreated and treated with empagliflozin showed no differentially expressed EC-coupling candidates. [ABSTRACT FROM AUTHOR]

Published

2020

37. Regulation of titin-based cardiac stiffness by unfolded domain oxidation (UnDOx).

Author

Loescher, Christine M., Breitkreuz, Martin, Yong Li, Nickel, Alexander, Unger, Andreas, Dietl, Alexander, Schmidt, Andreas, Mohamed, Belal A., Kötter, Sebastian, Schmitt, Joachim P., Krügere, Marcus, Krüger, Martina, Toischer, Karl, Maack, Christoph, Leichert, Lars I., Hamdani, Nazha, and Linke, Wolfgang A.

Subjects

*CONNECTIN, *MYOCARDIUM, *OXIDATIVE stress, *TISSUE mechanics, *PROTEOMICS, *HEART diseases, *ELASTICITY

Abstract

The relationship between oxidative stress and cardiac stiffness is thought to involve modifications to the giant muscle protein titin, which in turn can determine the progression of heart disease. In vitro studies have shown that S-glutathionylation and disulfide bonding of titin fragments could alter the elastic properties of titin; however, whether and where titin becomes oxidized in vivo is less certain. Here we demonstrate, using multiple models of oxidative stress in conjunction with mechanical loading, that immunoglobulin domains preferentially from the distal titin spring region become oxidized in vivo through the mechanism of unfolded domain oxidation (UnDOx). Via oxidation type-specific modification of titin, UnDOx modulates human cardiomyocyte passive force bidirectionally. UnDOx also enhances titin phosphorylation and, importantly, promotes nonconstitutive folding and aggregation of unfolded domains. We propose a mechanism whereby UnDOx enables the controlled homotypic interactions within the distal titin spring to stabilize this segment and regulate myocardial passive stiffness. [ABSTRACT FROM AUTHOR]

Published

2020

38. Cardiac dysfunction in cancer patients: beyond direct cardiomyocyte damage of anticancer drugs: novel cardio-oncology insights from the joint 2019 meeting of the ESC Working Groups of Myocardial Function and Cellular Biology of the Heart.

Author

Tocchetti, Carlo Gabriele, Ameri, Pietro, Boer, Rudolf A de, D'Alessandra, Yuri, Russo, Michele, Sorriento, Daniela, Ciccarelli, Michele, Kiss, Bernadett, Bertrand, Luc, Dawson, Dana, Falcao-Pires, Ines, Giacca, Mauro, Hamdani, Nazha, Linke, Wolfgang A, Mayr, Manuel, van der Velden, Jolanda, Zacchigna, Serena, Ghigo, Alessandra, Hirsch, Emilio, and Lyon, Alexander R

Subjects

*HEART diseases, *CYTOLOGY, *TEAMS in the workplace, *CANCER patients, *ANTINEOPLASTIC agents

Abstract

In western countries, cardiovascular (CV) disease and cancer are the leading causes of death in the ageing population. Recent epidemiological data suggest that cancer is more frequent in patients with prevalent or incident CV disease, in particular, heart failure (HF). Indeed, there is a tight link in terms of shared risk factors and mechanisms between HF and cancer. HF induced by anticancer therapies has been extensively studied, primarily focusing on the toxic effects that anti-tumour treatments exert on cardiomyocytes. In this Cardio-Oncology update, members of the ESC Working Groups of Myocardial Function and Cellular Biology of the Heart discuss novel evidence interconnecting cardiac dysfunction and cancer via pathways in which cardiomyocytes may be involved but are not central. In particular, the multiple roles of cardiac stromal cells (endothelial cells and fibroblasts) and inflammatory cells are highlighted. Also, the gut microbiota is depicted as a new player at the crossroads between HF and cancer. Finally, the role of non-coding RNAs in Cardio-Oncology is also addressed. All these insights are expected to fuel additional research efforts in the field of Cardio-Oncology. [ABSTRACT FROM AUTHOR]

Published

2020

39. Non-coding RNAs: update on mechanisms and therapeutic targets from the ESC Working Groups of Myocardial Function and Cellular Biology of the Heart.

Author

Bär, Christian, Chatterjee, Shambhabi, Pires, Inês Falcão, Rodrigues, Patrícia, Sluijter, Joost P G, Boon, Reinier A, Nevado, Rosa M, Andrés, Vicente, Sansonetti, Marida, Windt, Leon de, Ciccarelli, Michele, Hamdani, Nazha, Heymans, Stephane, Videira, Raquel Figuinha, Tocchetti, Carlo G, Giacca, Mauro, Zacchigna, Serena, Engelhardt, Stefan, Dimmeler, Stefanie, and Madonna, Rosalinda

Subjects

*NON-coding RNA, *CYTOLOGY, *LINCRNA, *CIRCULAR RNA

Abstract

Vast parts of mammalian genomes are actively transcribed, predominantly giving rise to non-coding RNA (ncRNA) transcripts including microRNAs, long ncRNAs, and circular RNAs among others. Contrary to previous opinions that most of these RNAs are non-functional molecules, they are now recognized as critical regulators of many physiological and pathological processes including those of the cardiovascular system. The discovery of functional ncRNAs has opened up new research avenues aiming at understanding ncRNA-related disease mechanisms as well as exploiting them as novel therapeutics in cardiovascular therapy. In this review, we give an update on the current progress in ncRNA research, particularly focusing on cardiovascular physiological and disease processes, which are under current investigation at the ESC Working Groups of Myocardial Function and Cellular Biology of the Heart. This includes a range of topics such as extracellular vesicle-mediated communication, neurohormonal regulation, inflammation, cardiac remodelling, cardio-oncology as well as cardiac development and regeneration, collectively highlighting the wide-spread involvement and importance of ncRNAs in the cardiovascular system. [ABSTRACT FROM AUTHOR]

Published

2020

40. CaMKII activity contributes to homeometric autoregulation of the heart: A novel mechanism for the Anrep effect.

Author

Reil, Jan‐Christian, Reil, Gert‐Hinrich, Kovács, Árpád, Sequeira, Vasco, Waddingham, Mark T., Lodi, Maria, Herwig, Melissa, Ghaderi, Shahrooz, Kreusser, Michael M., Papp, Zoltán, Voigt, Niels, Dobrev, Dobromir, Meyhöfer, Svenja, Langer, Harald F., Maier, Lars S., Linz, Dominik, Mügge, Andreas, Hohl, Mathias, Steendijk, Paul, and Hamdani, Nazha

Subjects

*HEAT shock proteins, *PROTEIN kinases, *HUMAN physiology, *KNOCKOUT mice, *OXIDATIVE stress

Abstract

Key points: The Anrep effect represents the alteration of left ventricular (LV) contractility to acutely enhanced afterload in a few seconds, thereby preserving stroke volume (SV) at constant preload. As a result of the missing preload stretch in our model, the Anrep effect differs from the slow force response and has a different mechanism.The Anrep effect demonstrated two different phases. First, the sudden increased afterload was momentary equilibrated by the enhanced LV contractility as a result of higher power strokes of strongly‐bound myosin cross‐bridges. Second, the slightly delayed recovery of SV is perhaps dependent on Ca2+/calmodulin‐dependent protein kinase II activation caused by oxidation and myofilament phosphorylation (cardiac myosin‐binding protein‐C, myosin light chain 2), maximizing the recruitment of available strongly‐bound myosin cross‐bridges.Short‐lived oxidative stress might present a new facet of subcellular signalling with respect to cardiovascular regulation.Relevance for human physiology was demonstrated by echocardiography disclosing the Anrep effect in humans during handgrip exercise. The present study investigated whether oxidative stress and Ca2+/calmodulin‐dependent protein kinase II (CaMKII) activity are involved in triggering the Anrep effect. LV pressure–volume (PV) analyses of isolated, preload controlled working hearts were performed at two afterload levels (60 and 100 mmHg) in C57BL/6N wild‐type (WT) and CaMKII‐double knockout mice (DKOCaMKII). In snap‐frozen WT hearts, force–pCa relationship, H2O2 generation, CaMKII oxidation and phosphorylation of myofilament and Ca2+ handling proteins were assessed. Acutely raised afterload showed significantly increased wall stress, H2O2 generation and LV contractility in the PV diagram with an initial decrease and recovery of stroke volume, whereas end‐diastolic pressure and volume, as well as heart rate, remained constant. Afterload induced increase in LV contractility was blunted in DKOCaMKII‐hearts. Force development of single WT cardiomyocytes was greater with elevated afterload at submaximal Ca2+ concentration and associated with increases in CaMKII oxidation and phosphorylation of cardiac‐myosin binding protein‐C, myosin light chain and Ca2+ handling proteins. CaMKII activity is involved in the regulation of the Anrep effect and associates with stimulation of oxidative stress, presumably starting a cascade of CaMKII oxidation with downstream phosphorylation of myofilament and Ca2+ handling proteins. These mechanisms improve LV inotropy and preserve stroke volume within few seconds. Key points: The Anrep effect represents the alteration of left ventricular (LV) contractility to acutely enhanced afterload in a few seconds, thereby preserving stroke volume (SV) at constant preload. As a result of the missing preload stretch in our model, the Anrep effect differs from the slow force response and has a different mechanism.The Anrep effect demonstrated two different phases. First, the sudden increased afterload was momentary equilibrated by the enhanced LV contractility as a result of higher power strokes of strongly‐bound myosin cross‐bridges. Second, the slightly delayed recovery of SV is perhaps dependent on Ca2+/calmodulin‐dependent protein kinase II activation caused by oxidation and myofilament phosphorylation (cardiac myosin‐binding protein‐C, myosin light chain 2), maximizing the recruitment of available strongly‐bound myosin cross‐bridges.Short‐lived oxidative stress might present a new facet of subcellular signalling with respect to cardiovascular regulation.Relevance for human physiology was demonstrated by echocardiography disclosing the Anrep effect in humans during handgrip exercise. [ABSTRACT FROM AUTHOR]

Published

2020

41. Diastolic dysfunction is initiated by cardiomyocyte impairment ahead of endothelial dysfunction due to increased oxidative stress and inflammation in an experimental prediabetes model.

Author

Waddingham, Mark T., Sonobe, Takashi, Tsuchimochi, Hirotsugu, Edgley, Amanda J., Sukumaran, Vijayakumar, Chen, Yi Ching, Hansra, Sarabjit S., Schwenke, Daryl O., Umetani, Keiji, Aoyama, Kohki, Yagi, Naoto, Kelly, Darren J., Gaderi, Shahrooz, Herwig, Melissa, Kolijn, Detmar, Mügge, Andreas, Paulus, Walter J., Ogo, Takeshi, Shirai, Mikiyasu, and Hamdani, Nazha

Subjects

*MYOSIN, *CONNECTIN, *ENDOTHELIUM diseases, *OXIDATIVE stress, *GUANYLATE cyclase, *CGMP-dependent protein kinase, *DISABILITIES

Abstract

Coronary microvessel endothelial dysfunction and nitric oxide (NO) depletion contribute to elevated passive tension of cardiomyocytes, diastolic dysfunction and predispose the heart to heart failure with preserved ejection fraction. We examined if diastolic dysfunction at the level of the cardiomyocytes precedes coronary endothelial dysfunction in prediabetes. Further, we determined if myofilaments other than titin contribute to impairment. Utilizing synchrotron microangiography we found young prediabetic male rats showed preserved dilator responses to acetylcholine in microvessels. Utilizing synchrotron X-ray diffraction we show that cardiac relaxation and cross-bridge dynamics are impaired by myosin head displacement from actin filaments particularly in the inner myocardium. We reveal that increased PKC activity and mitochondrial oxidative stress in cardiomyocytes contributes to rho-kinase mediated impairment of myosin head extension to actin filaments, depression of soluble guanylyl cyclase/PKG activity and consequently stiffening of titin in prediabetes ahead of coronary endothelial dysfunction. • Sarcomeric dysfunction precedes coronary microvascular dysfunction in prediabetes. • PKC/rho-kinase activation displaces myosin heads from actin filaments in prediabetes. • Oxidative stress and inflammation reduce sGC activity to increase titin stiffness. • Mild hyperglycemia induces cardiomyocyte diastolic dysfunction ahead of remodeling. [ABSTRACT FROM AUTHOR]

Published

2019

42. Early myocardial changes induced by doxorubicin in the nonfailing dilated ventricle.

Author

Rodrigues, Patricia G., Miranda-Silva, Daniela, Costa, Sofia M., Barros, Carla, Hamdani, Nazha, Moura, Cláudia, Mendes, Maria J., Sousa-Mendes, Cláudia, Trindade, Fábio, Fontoura, Dulce, Vitorino, Rui, Linke, Wolfgang A., Leite-Moreira, Adelino F., and Falcão-Pires, Inês

Subjects

*LIQUID chromatography-mass spectrometry, *LEFT ventricular hypertrophy, *CARDIAC hypertrophy, *DILATED cardiomyopathy, *DIASTOLE (Cardiac cycle), *PROTEIN analysis

Abstract

Several studies have demonstrated that administration of doxorubicin (DOXO) results in cardiotoxicity, which eventually progresses to dilated cardiomyopathy. The present work aimed to evaluate the early myocardial changes of DOXO-induced cardiotoxicity. Male New Zealand White rabbits were injected intravenously with DOXO twice weekly for 8 wk [DOXO-induced heart failure (DOXO-HF)] or with an equivolumetric dose of saline (control). Echocardiographic evaluation was performed, and myocardial samples were collected to evaluate myocardial cellular and molecular modifications. The DOXO-HF group presented cardiac hypertrophy and higher left ventricular cavity diameters, showing a dilated phenotype but preserved ejection fraction. Concerning cardiomyocyte function, the DOXO-HF group presented a trend toward increased active tension without significant differences in passive tension. The myocardial GSSG-to-GSH ratio and interstitial fibrosis were increased and Bax-to-Bcl-2 ratio presented a trend toward an increase, suggesting the activation of apoptosis signaling pathways. The macromolecule titin shifted toward the more compliant isoform (N2BA), whereas the stiffer one (N2B) was shown to be hypophosphorylated. Differential protein analysis from the aggregate-enriched fraction through gel liquid chromatography-tandem mass spectrometry revealed an increase in the histidine-rich glycoprotein fragment in DOXO-HF animals. This work describes novel and early myocardial effects of DOXO-induced cardiotoxicity. Thus, tracking these changes appears to be of extreme relevance for the early detection of cardiac damage (as soon as ventricular dilation becomes evident) before irreversible cardiac function deterioration occurs (reduced ejection fraction). Moreover, it allows for the adjustment of the therapeutic approach and thus the prevention of cardiomyopathy progression. [ABSTRACT FROM AUTHOR]

Published

2019

43. Characterization of biventricular alterations in myocardial (reverse) remodelling in aortic banding-induced chronic pressure overload.

Author

Miranda-Silva, Daniela, Gonçalves-Rodrigues, Patrícia, Almeida-Coelho, João, Hamdani, Nazha, Lima, Tânia, Conceição, Glória, Sousa-Mendes, Cláudia, Cláudia-Moura, González, Arantxa, Díez, Javier, Linke, Wolfgang A., Leite-Moreira, Adelino, and Falcão-Pires, Inês

Published

2019

44. Cardiac contractility modulation: mechanisms of action in heart failure with reduced ejection fraction and beyond.

Author

Tschöpe, Carsten, Kherad, Behrouz, Klein, Oliver, Lipp, Axel, Blaschke, Florian, Gutterman, David, Burkhoff, Daniel, Hamdani, Nazha, Spillmann, Frank, and Van Linthout, Sophie

Subjects

*HEART failure, *EXERCISE tolerance, *HEART septum, *HEART, *FRACTIONS, *QUALITY of life, *CARDIOTONIC agents, *CARDIAC contraction, *LEFT heart ventricle, *HEART physiology, *VENTRICULAR remodeling, *STROKE volume (Cardiac output)

Abstract

Heart failure (HF) is responsible for substantial morbidity and mortality and is increasing in prevalence. Although there has been remarkable progress in the treatment of HF with reduced ejection fraction (HFrEF), morbidity and mortality are still substantial. Cardiac contractility modulation (CCM) signals, consisting of biphasic high-voltage bipolar signals delivered to the right ventricular septum during the absolute refractory period, have been shown to improve symptoms, exercise tolerance and quality of life and reduce the rate of HF hospitalizations in patients with ejection fractions (EF) between 25% and 45%. CCM therapy is currently approved in the European Union, China, India, Australia and Brazil for use in symptomatic HFrEF patients with normal or slightly prolonged QRS duration. CCM is particularly beneficial in patients with baseline EF between 35% and 45%, which includes half the range of HF patients with mid-range EFs (HFmrEF). At the cellular level, CCM has been shown in HFrEF patients to improve calcium handling, to reverse the foetal myocyte gene programme associated with HF, and to facilitate reverse remodelling. This review highlights the preclinical and clinical literature related to CCM in HFrEF and HFmrEF and outlines the potential of CCM for HF with preserved EF, concluding that CCM may fill an important unmet need in the therapeutic approach to HF across the range of EFs. [ABSTRACT FROM AUTHOR]

Published

2019

45. Empagliflozin directly improves diastolic function in human heart failure.

Author

Pabel, Steffen, Wagner, Stefan, Bollenberg, Hannah, Bengel, Philipp, Kovács, Árpád, Schach, Christian, Tirilomis, Petros, Mustroph, Julian, Renner, André, Gummert, Jan, Fischer, Thomas, Van Linthout, Sophie, Tschöpe, Carsten, Streckfuss‐Bömeke, Katrin, Hasenfuss, Gerd, Maier, Lars S., Hamdani, Nazha, Sossalla, Samuel, and Streckfuss-Bömeke, Katrin

Subjects

*CELL metabolism, *HEART metabolism, *ANIMAL experimentation, *BENZENE, *BIOLOGICAL models, *BIOPSY, *CELLS, *COMPARATIVE studies, *DIASTOLE (Cardiac cycle), *ECHOCARDIOGRAPHY, *GLYCOSIDES, *CARDIAC contraction, *LEFT heart ventricle, *HEART ventricles, *HEART failure, *RESEARCH methodology, *MEDICAL cooperation, *MICE, *MYOCARDIUM, *RATS, *RESEARCH, *RESEARCH funding, *EVALUATION research

Abstract

Aims: Empagliflozin, a clinically used oral antidiabetic drug that inhibits the sodium-dependent glucose co-transporter 2, has recently been evaluated for its cardiovascular safety. Surprisingly, empagliflozin reduced mortality and hospitalization for heart failure (HF) compared to placebo. However, the underlying mechanisms remain unclear. Therefore, our study aims to investigate whether empagliflozin may cause direct pleiotropic effects on the myocardium.Methods and Results: In order to assess possible direct myocardial effects of empagliflozin, we performed contractility experiments with in toto-isolated human systolic end-stage HF ventricular trabeculae. Empagliflozin significantly reduced diastolic tension, whereas systolic force was not changed. These results were confirmed in murine myocardium from diabetic and non-diabetic mice, suggesting independent effects from diabetic conditions. In human HF cardiomyocytes, empagliflozin did not influence calcium transient amplitude or diastolic calcium level. The mechanisms underlying the improved diastolic function were further elucidated by studying myocardial fibres from patients and rats with diastolic HF (HF with preserved ejection fraction, HFpEF). Empagliflozin beneficially reduced myofilament passive stiffness by enhancing phosphorylation levels of myofilament regulatory proteins. Intravenous injection of empagliflozin in anaesthetized HFpEF rats significantly improved diastolic function measured by echocardiography, while systolic contractility was unaffected.Conclusion: Empagliflozin causes direct pleiotropic effects on the myocardium by improving diastolic stiffness and hence diastolic function. These effects were independent of diabetic conditions. Since pharmacological therapy of diastolic dysfunction and HF is an unmet need, our results provide a rationale for new translational studies and might also contribute to the understanding of the EMPA-REG OUTCOME trial. [ABSTRACT FROM AUTHOR]

Published

2018

46. Molecular and pathophysiological links between heart failure with preserved ejection fraction and type 2 diabetes mellitus.

Author

Papp, Zoltán, Radovits, Tamás, Paulus, Walter J., Hamdani, Nazha, and Seferović, Petar M.

Subjects

*TYPE 2 diabetes complications, *BLOOD sugar, *COMPARATIVE studies, *DIASTOLE (Cardiac cycle), *HEART failure, *RESEARCH methodology, *MEDICAL cooperation, *TYPE 2 diabetes, *RESEARCH, *EVALUATION research, *STROKE volume (Cardiac output)

Published

2018

47. Acute stimulation of the soluble guanylate cyclase does not impact on left ventricular capacitance in normal and hypertrophied porcine hearts in vivo.

Author

Alogna, Alessio, Schwarzl, Michael, Manninger, Martin, Hamdani, Nazha, Zirngast, Birgit, Kloth, Benjamin, Steendijk, Paul, Verderber, Jochen, Zweiker, David, Westermann, Dirk, Blankenberg, Stefan, Maechler, Heinrich, Tschöpe, Carsten, Linke, Wolfgang A., Marsche, Gunther, Pieske, Burkert M., and Post, Heiner

Subjects

*CONNECTIN, *GUANYLATE cyclase, *HYPERTROPHY, *MYOCARDIUM, *CARDIAC hypertrophy

Abstract

Experimental data indicate that stimulation of the nitric oxide-soluble guanylate cyclase(sGC)-cGMP-PKG pathway can increase left ventricular (LV) capacitance via phosphorylation of the myofilamental protein titin. We aimed to test whether acute pharmacological sGC stimulation with BAY 41-8543 would increase LV capacitance via titin phosphorylation in healthy and deoxycorticosteroneacetate (DOCA)-induced hypertensive pigs. Nine healthy Landrace pigs and 7 pigs with DOCA-induced hypertension and LV concentric hypertrophy were acutely instrumented to measure LV end-diastolic pressure-volume relationships (EDPVRs) at baseline and during intravenous infusion of BAY 41-8543 (1 and 3 µg· kg-1·min-1 for 30 min, respectively). Separately, in seven healthy and six DOCA pigs, transmural LV biopsies were harvested from the beating heart to measure titin phosphorylation during BAY 41-8543 infusion. LV EDPVRs before and during BAY 41-8543 infusion were superimposable in both healthy and DOCA-treated pigs, whereas mean aortic pressure decreased by 20-30 mmHg in both groups. Myocardial titin phosphorylation was unchanged in healthy pigs, but total and site-specific (Pro-Glu-Val-Lys and N2-Bus domains) titin phosphorylation was increased in DOCA-treated pigs. Bicoronary nitroglycerin infusion in healthy pigs (n = 5) induced a rightward shift of the LV EDPVR, demonstrating the responsiveness of the pathway in this model. Acute systemic sGC stimulation with the sGC stimulator BAY 41-8543 did not recruit an LV preload reserve in both healthy and hypertrophied LV porcine myocardium, although it increased titin phosphorylation in the latter group. Thus, increased titin phosphorylation is not indicative of increased in vivo LV capacitance. [ABSTRACT FROM AUTHOR]

Published

2018

48. Metabolic changes in hypertrophic cardiomyopathies: scientific update from the Working Group of Myocardial Function of the European Society of Cardiology.

Author

van der Velden, Jolanda, Tocchetti, Carlo G, Varricchi, Gilda, Bianco, Anna, Sequeira, Vasco, Hilfiker-Kleiner, Denise, Hamdani, Nazha, Leite-Moreira, Adelino F, Mayr, Manuel, and Falcão-Pires, Ines

Subjects

*METABOLISM, *HYPERTROPHIC cardiomyopathy, *OBESITY, *HEART diseases, *GENETICS

Abstract

Disturbed metabolism as a consequence of obesity and diabetes may cause cardiac diseases (recently highlighted in the cardiovascular research spotlight issue on metabolic cardiomyopathies). 1 In turn, the metabolism of the heart may also be disturbed in genetic and acquired forms of hypertrophic cardiac disease. Herein, we provide an overview of recent insights on metabolic changes in genetic hypertrophic cardiomyopathy and discuss several therapies, which may be explored to target disturbed metabolism and prevent onset of cardiac hypertrophy. This article is part of the Mini Review Series from the Varenna 2017 meeting of the Working Group of Myocardial Function of the European Society of Cardiology. [ABSTRACT FROM AUTHOR]

Published

2018

49. Complex roads from genotype to phenotype in dilated cardiomyopathy: scientific update from the Working Group of Myocardial Function of the European Society of Cardiology.

Author

Bondue, Antoine, Arbustini, Eloisa, Bianco, Anna, Ciccarelli, Michele, Dawson, Dana, Rosa, Matteo De, Hamdani, Nazha, Hilfiker-Kleiner, Denise, Meder, Benjamin, and Leite-Moreira, Adelino F

Subjects

*GENOTYPES, *PHENOTYPES, *DILATED cardiomyopathy, *FIBROSIS, *HEART failure

Abstract

Dilated cardiomyopathy (DCM) frequently affects relatively young, economically, and socially active adults, and is an important cause of heart failure and transplantation. DCM is a complex disease and its pathological architecture encounters many genetic determinants interacting with environmental factors. The old perspective that every pathogenic gene mutation would lead to a diseased heart, is now being replaced by the novel observation that the phenotype depends not only on the penetrance—malignancy of the mutated gene—but also on epigenetics, age, toxic factors, pregnancy, and a diversity of acquired diseases. This review discusses how gene mutations will result in mutation-specific molecular alterations in the heart including increased mitochondrial oxidation (sarcomeric gene e.g. TTN), decreased calcium sensitivity (sarcomeric genes), fibrosis (e.g. LMNA and TTN), or inflammation. Therefore, getting a complete picture of the DCM patient will include genomic data, molecular assessment by preference from cardiac samples, stratification according to co-morbidities, and phenotypic description. Those data will help to better guide the heart failure and anti-arrhythmic treatment, predict response to therapy, develop novel siRNA-based gene silencing for malignant gene mutations, or intervene with mutation-specific altered gene pathways in the heart. This article is part of the Mini Review Series from the Varenna 2017 meeting of the Working Group of Myocardial Function of the European Society of Cardiology. [ABSTRACT FROM AUTHOR]

Published

2018

50. Stretch-induced compliance: a novel adaptive biological mechanismfollowing acute cardiac load.

Author

Leite-Moreira, André M., Almeida-Coelho, João, Neves, João S., Pires, Ana L., Ferreira-Martins, João, Castro-Ferreira, Ricardo, Ladeiras-Lopes, Ricardo, Conceição, Glória, Miranda-Silva, Daniela, Rodrigues, Patrícia, Hamdani, Nazha, Herwig, Melissa, Falcão-Pires, Inês, Paulus, Walter J., Linke, Wolfgang A., Lourenço, André P., and Leite-Moreira, Adelino F.

Subjects

*SYSTOLIC blood pressure, *MYOCARDIAL infarction, *LEFT heart ventricle, *CARDIAC surgery, *PHOSPHORYLATION

Abstract

Aims The heart is constantly challenged with acute bouts of stretching or overload. Systolic adaptations to these challenges are known but adaptations in diastolic stiffness remain unknown. We evaluated adaptations in myocardial stiffness due to acute stretching and characterized the underlying mechanisms. Methods and results Left ventricles (LVs) of intact rat hearts, rabbit papillary muscles and myocardial strips from cardiac surgery patients were stretched. After stretching, there was a sustained >40% decrease in end-diastolic pressure (EDP) or passive tension (PT) for 15 min in all species and experimental preparations. Stretching by volume loading in volunteers and cardiac surgery patients resulted in E/E' and EDP decreases, respectively, after sustained stretching. Stretched samples had increased myocardial cGMP levels, increased phosphorylated vasodilator-stimulated phosphoprotein phosphorylation, as well as, increased titin phosphorylation, which was reduced by prior protein kinase G (PKG) inhibition (PKGi). Skinned cardiomyocytes from stretched and non-stretched myocardia were studied. Skinned cardiomyocytes from stretched hearts showed decreased PT, which was abrogated by protein phosphatase incubation; whereas those from non-stretched hearts decreased PT after PKG incubation. Pharmacological studies assessed the role of nitric oxide (NO) and natriuretic peptides (NPs). PT decay after stretching was significantly reduced by combined NP antagonism, NO synthase inhibition and NO scavenging, or by PKGi. Response to stretching was remarkably reduced in a rat model of LV hypertrophy, which also failed to increase titin phosphorylation. Conclusions We describe and translate to human physiology a novel adaptive mechanism, partly mediated by titin phosphorylation through cGMP-PKG signalling, whereby myocardial compliance increases in response to acute stretching. This mechanism may not function in the hypertrophic heart. [ABSTRACT FROM AUTHOR]

Published

2018