Mihaela Rusu scite author profile

Aim: Recruitment of neutrophils to the heart following acute myocardial infarction (MI) initiates inflammation and contributes to adverse post-infarct left ventricular (LV) remodeling. However, therapeutic inhibition of neutrophil recruitment into the infarct zone has not been beneficial in MI patients, suggesting a possible dual role for neutrophils in inflammation and repair following MI. Here, we investigate the effect of neutrophils on cardiac fibroblast function following MI. Methods and Results: We found that co-incubating neutrophils with isolated cardiac fibroblasts enhanced the production of provisional extracellular matrix proteins and reduced collagen synthesis when compared to control or co-incubation with mononuclear cells. Furthermore, we showed that neutrophils are required to induce the transient up-regulation of transforming growth factor (TGF)-ß1 expression in fibroblasts, a key requirement for terminating the pro-inflammatory phase and allowing the reparatory phase to form a mature scar after MI. Conclusion: Neutrophils are essential for both initiation and termination of inflammatory events that control and modulate the healing process after MI. Therefore, one should exercise caution when testing therapeutic strategies to inhibit neutrophil recruitment into the infarct zone in MI patients.

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Cardiac FGF23: new insights into the role and function of FGF23 after acute myocardial infarction

Schumacher

Alampour-Rajabi

Ponomariov

et al. 2019

Cardiovascular Pathology

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Biomechanical assessment of remote and postinfarction scar remodeling following myocardial infarction

Rusu

Hilse

Schuh

et al. 2019

Sci Rep

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The importance of collagen remodeling following myocardial infarction (MI) is extensively investigated, but little is known on the biomechanical impact of fibrillar collagen on left ventricle post-MI. We aim to identify the significant effects of the biomechanics of types I, III, and V collagen on physio-pathological changes of murine hearts leading to heart failure. Immediately post-MI, heart reduces its function (EF = 40.94 ± 2.12%) while sarcomeres’ dimensions are unchanged. Strikingly, as determined by immunohistochemistry staining, type V collagen fraction significantly grows in remote and scar for sustaining de novo-types I and III collagen fibers’ assembly while hindering their enzymatic degradation. Thereafter, the compensatory heart function (EF = 63.04 ± 3.16%) associates with steady development of types I and III collagen in a stiff remote (12.79 ± 1.09 MPa) and scar (22.40 ± 1.08 MPa). In remote, the soft de novo-type III collagen uncoils preventing further expansion of elongated sarcomeres (2.7 ± 0.3 mm). Once the compensatory mechanisms are surpassed, the increased turnover of stiff type I collagen (>50%) lead to a pseudo-stable biomechanical regime of the heart (≅9 MPa) with reduced EF (50.55 ± 3.25%). These end-characteristics represent the common scenario evidenced in patients suffering from heart failure after MI. Our pre-clinical data advances the understanding of the cause of heart failure induced in patients with extended MI.

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Lipid efflux mechanisms, relation to disease and potential therapeutic aspects

Castaño

Rattanasopa

Monteiro-Cardoso

et al. 2020

Advanced Drug Delivery Reviews

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Apolipoprotein E deficient rats generated via zinc-finger nucleases exhibit pronounced in-stent restenosis

Cornelissen

Simsekyilmaz

Liehn

et al. 2019

Sci Rep

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The long-term success of coronary stent implantation is limited by in-stent restenosis (ISR). In spite of a broad variety of animal models available, an ideal high-throughput model of ISR has been lacking. Apolipoprotein E (apoE) deficient rats enable the evaluation of human-sized coronary stents while at the same time providing an atherogenic phenotype. Whereas apoE deficient rats have been proposed as animal model of atherosclerosis, to date it is unknown whether they also develop pronounced ISR. We sought to assess ISR after abdominal aorta stent implantation in apoE deficient rats. A total of 42 rats (16 wildtype, 13 homozygous apoE−/− and 13 heterozygous apoE+/− rats) underwent abdominal aorta stent implantation. After 28 days blood samples were analyzed to characterize lipid profiles. ISR was assessed by histomorphometric means. Homozygous apoE−/− rats exhibited significantly higher total cholesterol and low-density cholesterol levels than wildtype apoE+/+ and heterozygous apoE+/− rats. ISR was significantly pronounced in homozygous apoE−/− rats as compared to wildtype apoE+/+ (p = <0.0001) and heterozygous apoE+/− rats (p = 0.0102) on western diet. Abdominal aorta stenting of apoE−/− rats is a reliable model to investigate ISR after stent implantation and thus can be used for the evaluation of novel stent concepts. Apolipoprotein E (apoE) deficient rats have been proposed as animal model of atherosclerosis. We investigated the development of restenosis 28 days after stent implantation into the abdominal aorta of wildtype apoE+/+, homozygous apoE−/− and heterozygous apoE+/− rats, respectively. Homozygous apoE−/− rats exhibited significantly higher LDL and significantly lower HDL cholesterol levels compared to wildtype apoE+/+ and heterozygous apoE+/− rats. Restenosis after stent implantation was significantly pronounced in western-diet-fed homozygous apoE−/− rats, accompanied by a significantly increased neointimal thickness. Thus, apoE knockout rats exhibit elevated restenosis and might provide a novel tool for testing of innovative stent concepts.

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Mihaela Rusu

Neutrophils Modulate Fibroblast Function and Promote Healing and Scar Formation after Murine Myocardial Infarction †

Cardiac FGF23: new insights into the role and function of FGF23 after acute myocardial infarction

Biomechanical assessment of remote and postinfarction scar remodeling following myocardial infarction

Lipid efflux mechanisms, relation to disease and potential therapeutic aspects

Apolipoprotein E deficient rats generated via zinc-finger nucleases exhibit pronounced in-stent restenosis

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