Daria Kostina scite author profile

Thoracic aortic aneurysm develops as a result of complex series of events that alter the cellular structure and the composition of the extracellular matrix of the aortic wall. The purpose of the present work was to study the cellular functions of endothelial and smooth muscle cells from the patients with aneurysms of the thoracic aorta. We studied endothelial and smooth muscle cells from aneurysms in patients with bicuspid aortic valve and with tricuspid aortic valve. The expression of key markers of endothelial (CD31, vWF, and VE-cadherin) and smooth muscle (SMA, SM22α, calponin, and vimentin) cells as well extracellular matrix and MMP activity was studied as well as and apoptosis and cell proliferation. Expression of functional markers of endothelial and smooth muscle cells was reduced in patient cells. Cellular proliferation, migration, and synthesis of extracellular matrix proteins are attenuated in the cells of the patients. We show for the first time that aortic endothelial cell phenotype is changed in the thoracic aortic aneurysms compared to normal aortic wall. In conclusion both endothelial and smooth muscle cells from aneurysms of the ascending aorta have downregulated specific cellular markers and altered functional properties, such as growth rate, apoptosis induction, and extracellular matrix synthesis.

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Biological Safety and Biodistribution of Chitosan Nanoparticles

Sonin

Почкаева

Zhuravskii

et al. 2020

Nanomaterials

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The effect of unmodified chitosan nanoparticles with a size of ~100 nm and a weakly positive charge on blood coagulation, metabolic activity of cultured cardiomyocytes, general toxicity, biodistribution, and reactive changes in rat organs in response to their single intravenous administration at doses of 1, 2, and 4 mg/kg was studied. Chitosan nanoparticles (CNPs) have a small cytotoxic effect and have a weak antiplatelet and anticoagulant effect. Intravenous administration of CNPs does not cause significant hemodynamic changes, and 30 min after the CNPs administration, they mainly accumulate in the liver and lungs, without causing hemolysis and leukocytosis. The toxicity of chitosan nanoparticles was manifested in a dose-dependent short-term delay in weight gain with subsequent recovery, while in the 2-week observation period no signs of pain and distress were observed in rats. Granulomas found in the lungs and liver indicate slow biodegradation of chitosan nanoparticles. In general, the obtained results indicate a good tolerance of intravenous administration of an unmodified chitosan suspension in the studied dose range.

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Mechanisms of Smooth Muscle Cell Differentiation Are Distinctly Altered in Thoracic Aortic Aneurysms Associated with Bicuspid or Tricuspid Aortic Valves

et al. 2017

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Cellular and molecular mechanisms of thoracic aortic aneurysm are not clear and therapeutic approaches are mostly absent. Thoracic aortic aneurysm is associated with defective differentiation of smooth muscle cells (SMC) of aortic wall. Bicuspid aortic valve (BAV) comparing to tricuspid aortic valve (TAV) significantly predisposes to a risk of thoracic aortic aneurysms. It has been suggested recently that BAV-associated aortopathies represent a separate pathology comparing to TAV-associated dilations. The only proven candidate gene that has been associated with BAV remains NOTCH1. In this study we tested the hypothesis that Notch-dependent and related TGF-β and BMP differentiation pathways are differently altered in aortic SMC of BAV- vs. TAV-associated aortic aneurysms. SMC were isolated from aortic tissues of the patients with BAV- or TAV-associated aortic aneurysms and from healthy donors used as controls. Gene expression was verified by qPCR and Western blotting. For TGF-β induced differentiation SMC were treated with the medium containing TGF-β1. To induce proosteogenic signaling we cultured SMC in the presence of specific osteogenic factors. Notch-dependent differentiation was induced via lentiviral transduction of SMC with activated Notch1 domain. MYOCD expression, a master gene of SMC differentiation, was down regulated in SMC of both BAV and TAV patients. Discriminant analysis of gene expression patterns included a set of contractile genes specific for SMC, Notch-related genes and proosteogenic genes and revealed that control cells form a separate cluster from both BAV and TAV group, while BAV- and TAV-derived SMC are partially distinct with some overlapping. In differentiation experiments TGF-β caused similar patterns of target gene expression for BAV- and TAV derived cells while the induction was higher in the diseased cells than in control ones. Osteogenic induction caused significant change in RUNX2 expression exclusively in BAV group. Notch activation induced significant ACTA2 expression also exclusively in BAV group. We show that Notch acts synergistically with proosteogenic factors to induce ACTA2 transcription and osteogenic differentiation. In conclusion we have found differences in responsiveness of SMC to Notch and to proosteogenic induction between BAV- and TAV-associated aortic aneurysms.

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Human aortic endothelial cells have osteogenic Notch-dependent properties in co-culture with aortic smooth muscle cells

Kostina

Semenova

Kostina³

et al. 2019

Biochemical and Biophysical Research Communications

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Generation of iPSC line from desmin-related cardiomyopathy patient carrying splice site mutation of DES gene

et al. 2017

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Human iPSC line was generated from patient-specific adipose tissue-derived mesenchymal multipotent stromal cells carrying desmin (DES) gene heterozygous splice site mutation using non-integrative reprogramming method. Reprogramming factors OCT4, KLF4, SOX2, CMYC were delivered using Sendai viruses. iPSCs were characterized by sequencing, karyotype analysis, STR analysis, immunocytochemistry, RT-PCR and teratoma formation.

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The effect of plakophilin-2 gene mutations on the activity of canonical WNT signaling

et al. 2016

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Plakophilin 2 is a desmosomal protein encoded by PKP2 gene. Desmosomal proteins are usually considered as structural proteins with the main function of maintaining intercellular interactions. Genetic studies revealed that mutations in desmosomal genes could lead to arrhythmogenic right ventricular cardi omyopathy, a heart disease characterized by substitution of cardiomyocytes by adipose and fibrotic tissue pre dominantly in the right ventricle. Wnt signaling is a signal transduction pathway presumably involved in the development of pathology. The purpose of this study was to investigate Wnt activity in cells with wild type and mutant PKP2 gene during adipogenic and cardiomyogenic differentiation. We used multipotent mesenchy mal stromal cells and iPS cells generated from a patient carrying PKP2 gene mutation. We found that cells with mutant PKP2 exhibited lower transcriptional activity of β catenin, a key player of Wnt signaling, as well as attenuated expression of its targets SOX2 and SOX9. These findings suggest a signaling role of plakophilin 2 by regulating Wnt activity

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Osteogenic Differentiation In Vitro of Human Osteoblasts Is Associated with Only Slight Shift in Their Proteomics Profile

Khvorova

Kostina²,

Zainullina³

et al. 2022

Cell Tiss. Biol.

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Functional properties of smooth muscle cells in ascending aortic aneurysm

et al. 2014

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Daria Kostina

Phenotypic and Functional Changes of Endothelial and Smooth Muscle Cells in Thoracic Aortic Aneurysms

Biological Safety and Biodistribution of Chitosan Nanoparticles

Mechanisms of Smooth Muscle Cell Differentiation Are Distinctly Altered in Thoracic Aortic Aneurysms Associated with Bicuspid or Tricuspid Aortic Valves

Human aortic endothelial cells have osteogenic Notch-dependent properties in co-culture with aortic smooth muscle cells

Generation of iPSC line from desmin-related cardiomyopathy patient carrying splice site mutation of DES gene

The effect of plakophilin-2 gene mutations on the activity of canonical WNT signaling

Osteogenic Differentiation In Vitro of Human Osteoblasts Is Associated with Only Slight Shift in Their Proteomics Profile

Functional properties of smooth muscle cells in ascending aortic aneurysm

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