Г. П. Гусев scite author profile

Fluoride (F) is ubiquitous natural substance and widespread industrial pollutant. Although low fluoride concentrations are beneficial for normal tooth and bone development, acute or chronic exposure to high fluoride doses results in adverse health effects. The molecular mechanisms underlying fluoride toxicity are different by nature. Fluoride is able to stimulate G-proteins with subsequent activation of downstream signal transduction pathways such as PKA-, PKC-, PI3-kinase-, Ca 2+ -, and MAPK-dependent systems. G-protein-independent routes include tyrosine phosphorylation and protein phosphatase inhibition. Along with other toxic effects, fluoride was shown to induce oxidative stress leading to excessive generation of ROS, lipid peroxidation, decrease in the GSH/GSSH ratio, and alterations in activities of antioxidant enzymes, as well as to inhibit glycolysis thus causing the depletion of cellular ATP and disturbances in cellular metabolism. Fluoride triggers the disruption of mitochondria outer membrane and release of cytochrome c into cytosol, what activates caspases-9 and -3 (intrinsic) apoptotic pathway. Extrinsic (death receptor) Fas/FasL-caspase-8 and -3 pathway was also described to be implicated in fluoride-induced apoptosis. Fluoride decreases the ratio of antiapoptotic/proapoptotic Bcl-2 family proteins and upregulates the expression of p53 protein. Finally, fluoride changes the expression profile of apoptosis-related genes and causes endoplasmic reticulum stress leading to inhibition of protein synthesis.

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Fluoride induces oxidative stress and ATP depletion in the rat erythrocytes in vitro

Agalakova

Гусев

2012

Environmental Toxicology and Pharmacology

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Fluoride-induced death of rat erythrocytes in vitro

Agalakova

Гусев

2011

Toxicology in Vitro

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Understanding quasi-apoptosis of the most numerous enucleated components of blood needs detailed molecular autopsy

Гусев

Govekar

Gadewal

et al. 2017

Ageing Research Reviews

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Regulation of K–Cl cotransport in erythrocytes of frog Rana temporaria by commonly used protein kinase and protein phosphatase inhibitors

Гусев

Agalakova

2009

J Comp Physiol B

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Recently (Agalakova and Gusev in J Comp Physiol 179:443-450, 2009), we demonstrated that the activity of K-Cl cotransport (KCC) in frog red blood cells is inhibited under stimulation of protein kinase C (PKC) with phorbol ester PMA (12-myristate-13-acetate). Present work was performed to uncover possible implication of protein kinases and protein phosphatases (PPs) in the regulation of baseline and volume-dependent KCC activity in these cells. K+ influx was estimated as 86Rb uptake by the cells in isotonic or hypotonic media in the presence of ouabain, K+ efflux was determined as the difference between K+ loss by the cells incubated in parallel in isotonic or hypotonic K(+)-free Cl(-)- and NO(3)(-)-media. Swelling of the cells in hypotonic medium was accompanied by approximately 50% activation of Cl-dependent K+ influx and efflux. Protein tyrosine kinase (PTK) inhibitor genistein (0.1 mM) stably and considerably (up to 89%) suppressed both baseline and volume-dependent KCC activity in each direction. Other PTK blockers (tyrphostin 23 and quercetin) had no influence on KCC activity in frog erythrocytes. PKC inhibitor chelerythrine (20 microM) and both PP inhibitors, fluoride (5 mM) and okadaic acid (1 microM), reduced KCC activity by 25-70%. Neither basal nor swelling-activated KCC in frog erythrocytes was affected by PKC inhibitor staurosporine (1 microM). Based on the previous and present results, we can suggest that the main role in the maintenance of basal and volume-dependent KCC activity in frog erythrocytes belongs to PTKs and PPs, whereas PKC is a negative regulator of this ion system.

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Г. П. Гусев

Molecular Mechanisms of Cytotoxicity and Apoptosis Induced by Inorganic Fluoride

Fluoride induces oxidative stress and ATP depletion in the rat erythrocytes in vitro

Fluoride-induced death of rat erythrocytes in vitro

Understanding quasi-apoptosis of the most numerous enucleated components of blood needs detailed molecular autopsy

Regulation of K–Cl cotransport in erythrocytes of frog Rana temporaria by commonly used protein kinase and protein phosphatase inhibitors

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