A. K. Vasileva scite author profile

The goals of the study were: (1) to explore the communication between human mesenchymal stem cells (MSC) and rat cardiac myocytes resulting in differentiation of the stem cells and, (2) to evaluate the role of mitochondria in it. Light and fluorescence microscopy as well as scanning electron microscopy revealed that after co-cultivation, cells formed intercellular contacts and transient exchange with cytosolic elements could be observed. The transport of cytosolic entity had no specific direction. Noticeably, mitochondria also could be transferred to the recipient cells in a unidirectional fashion (towards cardiomyocytes only). Transmission electron microscopy revealed significant variability in both the diameter of intercellular contacting tubes and their shape. Inside of these nanotubes mitochondria-resembling structures were identified. Moreover, after co-cultivation with cardiomyocytes, expression of human-specific myosin was revealed in MSC. Thus, we speculate that: (1) transport of intracellular elements to MSC possibly can determine the direction of their differentiation and, (2) mitochondria may be involved in the mechanism of the stem cell differentiation. It looks plausible that mitochondrial transfer to recipient cardiomyocytes may be involved in the mechanism of failed myocardium repair after stem cells transplantation.

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The role of mitochondria in oxidative and nitrosative stress during ischemia/reperfusion in the rat kidney

Plotnikov

Kazachenko

Vysokikh

et al. 2007

Kidney International

181

146

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Reoxygenation following ischemia causes tissue oxidative stress. We studied the role of oxidative stress caused by kidney ischemia/reperfusion (I/R) on the mitochondria of renal tissue slices. I/R caused the mitochondria to be swollen, fragmented, and have lower membrane potential. The mitochondria generated more reactive oxygen species (ROS) and nitric oxide (NO) in situ as measured by fluorescence of ROS- and NO-sensitive probes. Infusion of lithium ion, an inhibitor of glycogen kinase synthase-3, caused phosphorylation of its Ser-9 and restored the membrane potential and decreased ROS production of the mitochondrial fraction. Ischemic kidney and hypoxic rat preconditioning improved mitochondrial membrane potential and lowered ROS production caused by subsequent I/R similar to lithium ion infusion. Preconditioning normalized NO production in mitochondria as well. The drop in the mitochondrial membrane potential was prevented by NO synthase inhibition, demonstrating a strong contribution of NO to changes in mitochondrial energy metabolism during the I/R transition. Mitochondria in the I/R-stressed kidney contained less cytochrome c and more pro-apoptotic Bax, consistent with apoptotic degradation.

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The mitochondrion as Janus Bifrons

Zorov

Isaev

Plotnikov

et al. 2007

Biochemistry Moscow

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The signaling function of mitochondria is considered with a special emphasis on their role in the regulation of redox status of the cell, possibly determining a number of pathologies including cancer and aging. The review summarizes the transport role of mitochondria in energy supply to all cellular compartments (mitochondria as an electric cable in the cell), the role of mitochondria in plastic metabolism of the cell including synthesis of heme, steroids, iron-sulfur clusters, and reactive oxygen and nitrogen species. Mitochondria also play an important role in the Ca(2+)-signaling and the regulation of apoptotic cell death. Knowledge of mechanisms responsible for apoptotic cell death is important for the strategy for prevention of unwanted degradation of postmitotic cells such as cardiomyocytes and neurons.

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Interrelations of mitochondrial fragmentation and cell death under ischemia/reoxygenation and UV‐irradiation: Protective effects of SkQ1, lithium ions and insulin

et al. 2008

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Mitochondria-targeted antioxidant 10-(6-plastoquinonyl)decyltriphenyl-phosphonium (SkQ1) as well as insulin and the inhibitor of glycogen-synthase kinase, Li + are shown to (i) protect renal tubular cells from an apoptotic death and (ii) diminish mitochondrial fission (the thread-grain transition) induced by ischemia/reoxygenation. However, SkQ1 and LiCl protected the mitochondrial reticulum of skin fibroblasts from ultraviolet-induced fission but were ineffective in preventing a further cell death. This means that mitochondrial fission is not essential for apoptotic cascade progression.

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New-generation Skulachev ions exhibiting nephroprotective and neuroprotective properties

Plotnikov

Silachev

Chupyrkina

et al. 2010

Biochemistry Moscow

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A mitochondria-targeted chimeric compound consisting of a rhodamine derivative linked to a plastoquinone molecule (10-(6'-plastoquinonyl)decylrhodamine, SkQR1) was studied under conditions of acute brain or kidney damage. A protective effect of this compound was demonstrated in a model of focal brain ischemia, rat kidney ischemia/reperfusion, myoglobinuria (rhabdomyolysis, or crush syndrome), and pyelonephritis. We found that a single intraperitoneal injection of SkQR1 diminishes the size of the ischemic zone in the brain and improves performance of a test characterizing neurological deficit in ischemic animals. Control substance not containing plastoquinone appeared to be not neuroprotective. The data show that SkQR1 is a nephroprotectant and neuroprotectant, which can be due to the antioxidative action of this Skulachev cation.

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Inhibition of GSK-3β Decreases the Ischemia-Induced Death of Renal Cells

et al. 2010

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Pharmacological preconditioning with insulin and lithium ions prevented the death of renal cells under conditions of ischemia/reperfusion. Preincubation of cells with insulin or lithium ions decreased production of reactive oxygen species after ischemia/reoxygenation. These agents also prevented the development of mitochondrial dysfunction in renal cells induced by ischemia/reoxygenation. It was hypothesized that the protective effects of these agents are related to inhibition of glycogen synthase kinase-3(. This enzyme is inactivated upon phosphorylation of serine residue in position 9. We found that in vivo administration of lithium ions to animals before renal ischemia prevents the development of kidney failure.

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S10.5 The role of reactive oxygen and nitrogen species in the pathogenesis of acute renal failure

Plotnikov

Chupyrkina

Vasileva

et al. 2008

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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S8.24 Cell-to-cell cross-talk between mesenchymal stem cells and cardiomyocytes

Khryapenkova

Plotnikov

Korotetskaya

et al. 2008

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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A. K. Vasileva

Cell‐to‐cell cross‐talk between mesenchymal stem cells and cardiomyocytes in co‐culture

The role of mitochondria in oxidative and nitrosative stress during ischemia/reperfusion in the rat kidney

The mitochondrion as Janus Bifrons

Interrelations of mitochondrial fragmentation and cell death under ischemia/reoxygenation and UV‐irradiation: Protective effects of SkQ1, lithium ions and insulin

New-generation Skulachev ions exhibiting nephroprotective and neuroprotective properties

Inhibition of GSK-3β Decreases the Ischemia-Induced Death of Renal Cells

S10.5 The role of reactive oxygen and nitrogen species in the pathogenesis of acute renal failure

S8.24 Cell-to-cell cross-talk between mesenchymal stem cells and cardiomyocytes

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