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4. Rhodamine 19 Alkyl Esters as Effective Antibacterial Agents.

Author

Nazarov, Pavel A., Maximov, Vladislav S., Firsov, Alexander M., Karakozova, Marina V., Panfilova, Veronika, Kotova, Elena A., Skulachev, Maxim V., and Antonenko, Yuri N.

Subjects
ANTIBACTERIAL agents, ESCHERICHIA coli, MYCOBACTERIUM smegmatis, FLUORESCENCE spectroscopy, ESTERS, RHODAMINES, GRAM-positive bacteria
Abstract

Mitochondria-targeted antioxidants (MTAs) have been studied quite intensively in recent years as potential therapeutic agents and vectors for the delivery of other active substances to mitochondria and bacteria. Their most studied representatives are MitoQ and SkQ1, with its fluorescent rhodamine analog SkQR1, a decyl ester of rhodamine 19 carrying plastoquinone. In the present work, we observed a pronounced antibacterial action of SkQR1 against Gram-positive bacteria, but virtually no effect on Gram-negative bacteria. The MDR pump AcrAB-TolC, known to expel SkQ1, did not recognize and did not pump out SkQR1 and dodecyl ester of rhodamine 19 (C12R1). Rhodamine 19 butyl (C4R1) and ethyl (C2R1) esters more effectively suppressed the growth of ΔtolC Escherichia coli, but lost their potency with the wild-type E. coli pumping them out. The mechanism of the antibacterial action of SkQR1 may differ from that of SkQ1. The rhodamine derivatives also proved to be effective antibacterial agents against various Gram-positive species, including Staphylococcus aureus and Mycobacterium smegmatis. By using fluorescence correlation spectroscopy and fluorescence microscopy, SkQR1 was shown to accumulate in the bacterial membrane. Thus, the presentation of SkQR1 as a fluorescent analogue of SkQ1 and its use for visualization should be performed with caution. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Cationic penetrating antioxidants switch off Mn cluster of photosystem II in situ

Author

Ptushenko, Vasily V., Solovchenko, Alexei E., Bychkov, Andrew Y., Chivkunova, Olga B., Golovin, Andrey V., Gorelova, Olga A., Ismagulova, Tatiana T., Kulik, Leonid V., Lobakova, Elena S., Lukyanov, Alexandr A., Samoilova, Rima I., Scherbakov, Pavel N., Selyakh, Irina O., Semenova, Larisa R., Vasilieva, Svetlana G., Baulina, Olga I., Skulachev, Maxim V., and Kirpichnikov, Mikhail P.

Published
2019
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7. Six Functions of Respiration: Isn't It Time to Take Control over ROS Production in Mitochondria, and Aging Along with It?

Author

Skulachev, Vladimir P., Vyssokikh, Mikhail Yu., Chernyak, Boris V., Mulkidjanian, Armen Y., Skulachev, Maxim V., Shilovsky, Gregory A., Lyamzaev, Konstantin G., Borisov, Vitaliy B., Severin, Fedor F., and Sadovnichii, Victor A.

Subjects
RESPIRATION, CELL respiration, MITOCHONDRIA, BIOLOGICAL transport, REACTIVE oxygen species, MITOCHONDRIAL membranes
Abstract

Cellular respiration is associated with at least six distinct but intertwined biological functions. (1) biosynthesis of ATP from ADP and inorganic phosphate, (2) consumption of respiratory substrates, (3) support of membrane transport, (4) conversion of respiratory energy to heat, (5) removal of oxygen to prevent oxidative damage, and (6) generation of reactive oxygen species (ROS) as signaling molecules. Here we focus on function #6, which helps the organism control its mitochondria. The ROS bursts typically occur when the mitochondrial membrane potential (MMP) becomes too high, e.g., due to mitochondrial malfunction, leading to cardiolipin (CL) oxidation. Depending on the intensity of CL damage, specific programs for the elimination of damaged mitochondria (mitophagy), whole cells (apoptosis), or organisms (phenoptosis) can be activated. In particular, we consider those mechanisms that suppress ROS generation by enabling ATP synthesis at low MMP levels. We discuss evidence that the mild depolarization mechanism of direct ATP/ADP exchange across mammalian inner and outer mitochondrial membranes weakens with age. We review recent data showing that by protecting CL from oxidation, mitochondria-targeted antioxidants decrease lethality in response to many potentially deadly shock insults. Thus, targeting ROS- and CL-dependent pathways may prevent acute mortality and, hopefully, slow aging. [ABSTRACT FROM AUTHOR]

Published
2023
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8. In search of novel highly active mitochondria-targeted antioxidants: Thymoquinone and its cationic derivatives

Author

Severina, Inna I., Severin, Fedor F., Korshunova, Galina A., Sumbatyan, Natalya V., Ilyasova, Tatyana M., Simonyan, Ruben A., Rogov, Anton G., Trendeleva, Tatyana A., Zvyagilskaya, Renata A., Dugina, Vera B., Domnina, Lidia V., Fetisova, Elena K., Lyamzaev, Konstantin G., Vyssokikh, Mikhail Yu, Chernyak, Boris V., Skulachev, Maxim V., Skulachev, Vladimir P., and Sadovnichii, Viktor A.

Published
2013
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9. Penetration of Triphenylphosphonium Derivatives through the Cell Envelope of Bacteria of Mycobacteriales Order.

Author

Nazarov, Pavel A., Majorov, Konstantin B., Apt, Alexander S., and Skulachev, Maxim V.

Subjects
PHYTOPATHOGENIC microorganisms, BACTERIAL cell walls, BACTERICIDAL action, GRAM-positive bacteria, BACTERIAL cells, BACTERIA, MYCOBACTERIUM tuberculosis
Abstract

The penetration of substances through the bacterial cell envelope is a complex and underinvestigated process. Mitochondria-targeted antioxidant and antibiotic SkQ1 (10-(plastoquinonyl)decyltriphenylphosphonium) is an excellent model for studying the penetration of substances through the bacterial cell envelope. SkQ1 resistance in Gram-negative bacteria has been found to be dependent on the presence of the AcrAB-TolC pump, while Gram-positive bacteria do not have this pump but, instead, have a mycolic acid-containing cell wall that is a tough barrier against many antibiotics. Here, we report the bactericidal action of SkQ1 and dodecyl triphenylphospho-nium (C12TPP) against Rhodococcus fascians and Mycobacterium tuberculosis, pathogens of plants and humans. The mechanism of the bactericidal action is based on the penetration of SkQ1 and C12TPP through the cell envelope and the disruption of the bioenergetics of bacteria. One, but probably not the only such mechanism is a decrease in membrane potential, which is important for the implementation of many cellular processes. Thus, neither the presence of MDR pumps, nor the presence of porins, prevents the penetration of SkQ1 and C12TPP through the complex cell envelope of R. fascians and M. tuberculosis. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Results of a Multicenter, Randomized, Double-Masked, Placebo-Controlled Clinical Study of the Efficacy and Safety of Visomitin Eye Drops in Patients with Dry Eye Syndrome

Author

Brzheskiy, Vladimir V., Efimova, Elena L., Vorontsova, Tatiana N., Alekseev, Vladimir N., Gusarevich, Olga G., Shaidurova, Ksenia N., Ryabtseva, Alla A., Andryukhina, Olga M., Kamenskikh, Tatiana G., Sumarokova, Elena S., Miljudin, Eugeny S., Egorov, Eugeny A., Lebedev, Oleg I., Surov, Alexander V., Korol, Andrii R., Nasinnyk, Illia O., Bezditko, Pavel A., Muzhychuk, Olena P., Vygodin, Vladimir A., Yani, Elena V., Savchenko, Alla Y., Karger, Elena M., Fedorkin, Oleg N., Mironov, Alexander N., Ostapenko, Victoria, Popeko, Natalia A., Skulachev, Vladimir P., and Skulachev, Maxim V.

Published
2015
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12. Prevention of cardiolipin oxidation and fatty acid cycling as two antioxidant mechanisms of cationic derivatives of plastoquinone (SkQs)

Author

Skulachev, Vladimir P., Antonenko, Yury N., Cherepanov, Dmitry A., Chernyak, Boris V., Izyumov, Denis S., Khailova, Ludmila S., Klishin, Sergey S., Korshunova, Galina A., Lyamzaev, Konstantin G., Pletjushkina, Olga Yu., Roginsky, Vitaly A., Rokitskaya, Tatiana I., Severin, Fedor F., Severina, Inna I., Simonyan, Ruben A., Skulachev, Maxim V., Sumbatyan, Natalia V., Sukhanova, Evgeniya I., Tashlitsky, Vadim N., Trendeleva, Tatyana A., Vyssokikh, Mikhail Yu., and Zvyagilskaya, Renata A.

Published
2010
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13. An attempt to prevent senescence: A mitochondrial approach

Author

Skulachev, Vladimir P., Anisimov, Vladimir N., Antonenko, Yuri N., Bakeeva, Lora E., Chernyak, Boris V., Erichev, Valery P., Filenko, Oleg F., Kalinina, Natalya I., Kapelko, Valery I., Kolosova, Natalya G., Kopnin, Boris P., Korshunova, Galina A., Lichinitser, Mikhail R., Obukhova, Lidia A., Pasyukova, Elena G., Pisarenko, Oleg I., Roginsky, Vitaly A., Ruuge, Enno K., Senin, Ivan I., Severina, Inna I., Skulachev, Maxim V., Spivak, Irina M., Tashlitsky, Vadim N., Tkachuk, Vsevolod A., Vyssokikh, Mikhail Yu., Yaguzhinsky, Lev S., and Zorov, Dmitry B.

Published
2009
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14. Novel Mitochondria-Targeted Antioxidants: Plastoquinone Conjugated with Cationic Plant Alkaloids Berberine and Palmatine

Author

Lyamzaev, Konstantin G., Pustovidko, Antonina V., Simonyan, Ruben A., Rokitskaya, Tatyana I., Domnina, Lidia V., Ivanova, Olga Yu., Severina, Inna I., Sumbatyan, Natalia V., Korshunova, Galina A., Tashlitsky, Vadim N., Roginsky, Vitaly A., Antonenko, Yuriy N., Skulachev, Maxim V., Chernyak, Boris V., and Skulachev, Vladimir P.

Published
2011
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15. Impact of Antioxidants on Cardiolipin Oxidation in Liposomes: Why Mitochondrial Cardiolipin Serves as an Apoptotic Signal?

Author

Lokhmatikov, Alexey V., Voskoboynikova, Natalia, Cherepanov, Dmitry A., Skulachev, Maxim V., Steinhoff, Heinz-Jürgen, Skulachev, Vladimir P., and Mulkidjanian, Armen Y.

Subjects
Article Subject, lcsh:Cytology, macromolecular substances, lcsh:QH573-671
Abstract

Molecules of mitochondrial cardiolipin (CL) get selectively oxidized upon oxidative stress, which triggers the intrinsic apoptotic pathway. In a chemical model most closely resembling the mitochondrial membrane—liposomes of pure bovine heart CL—we compared ubiquinol-10, ubiquinol-6, and alpha-tocopherol, the most widespread naturally occurring antioxidants, with man-made, quinol-based amphiphilic antioxidants. Lipid peroxidation was induced by addition of an azo initiator in the absence and presence of diverse antioxidants, respectively. The kinetics of CL oxidation was monitored via formation of conjugated dienes at 234 nm. We found that natural ubiquinols and ubiquinol-based amphiphilic antioxidants were equally efficient in protecting CL liposomes from peroxidation; the chromanol-based antioxidants, including alpha-tocopherol, were 2-3 times less efficient. Amphiphilic antioxidants, but not natural ubiquinols and alpha-tocopherol, were able, additionally, to protect the CL bilayer from oxidation by acting from the water phase. We suggest that the previously reported therapeutic efficiency of mitochondrially targeted amphiphilic antioxidants is owing to their ability to protect those CL molecules that are inaccessible to natural hydrophobic antioxidants, being trapped within respiratory supercomplexes. The high susceptibility of such occluded CL molecules to oxidation may have prompted their recruitment as apoptotic signaling molecules by nature.

Published
2016

17. NEOTENY, PROLONGATION OF YOUTH: FROM NAKED MOLE RATS TO "NAKED APES" (HUMANS).

Author

Skulachev, Vladimir P., Holtze, Susanne, Vyssokikh, Mikhail Y., Bakeeva, Lora E., Skulachev, Maxim V., Markov, Alexander V., Hildebrandt, Thomas B., and Sadovnichii, Viktor A.

Subjects
NEOTENY, IMMORTALITY of the body, DIABETES, CANCER, LABORATORY rats
Abstract

It has been suggested that highly social mammals, such as naked mole rats and humans, are long-lived due to neoteny (the prolongation of youth). In both species, aging cannot operate as a mechanism facilitating natural selection because the pressure of this selection is strongly reduced due to 1) a specific social structure where only the "queen" and her "husband(s)" are involved in reproduction (naked mole rats) or 2) substituting fast technological progress for slow biological evolution (humans). Lists of numerous traits of youth that do not disappear with age in naked mole rats and humans are presented and discussed. A high resistance of naked mole rats to cancer, diabetes, cardiovascular and brain diseases, and many infections explains why their mortality rate is very low and almost age-independent and why their lifespan is more than 30 years, versus 3 years in mice. In young humans, curves of mortality versus age start at extremely low values. However, in the elderly, human mortality strongly increases. High mortality rates in other primates are observed at much younger ages than in humans. The inhibition of the aging process in humans by specific drugs seems to be a promising approach to prolong our healthspan. This might be a way to retard aging, which is already partially accomplished via the natural physiological phenomenon neoteny. [ABSTRACT FROM AUTHOR]

Published
2017
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20. AICAR Protects Vascular Endothelial Cells from Oxidative Injury Induced by the Long-Term Palmitate Excess.

Author

Samsonov, Mikhail V., Podkuychenko, Nikita V., Khapchaev, Asker Y., Efremov, Eugene E., Yanushevskaya, Elena V., Vlasik, Tatiana N., Lankin, Vadim Z., Stafeev, Iurii S., Skulachev, Maxim V., Shestakova, Marina V., Vorotnikov, Alexander V., and Shirinsky, Vladimir P.

Subjects
VASCULAR endothelial cells, FREE fatty acids, TYPE 2 diabetes, VASCULAR endothelium, REACTIVE oxygen species, INSULIN receptors
Abstract

Hyperlipidemia manifested by high blood levels of free fatty acids (FFA) and lipoprotein triglycerides is critical for the progression of type 2 diabetes (T2D) and its cardiovascular complications via vascular endothelial dysfunction. However, attempts to assess high FFA effects in endothelial culture often result in early cell apoptosis that poorly recapitulates a much slower pace of vascular deterioration in vivo and does not provide for the longer-term studies of endothelial lipotoxicity in vitro. Here, we report that palmitate (PA), a typical FFA, does not impair, by itself, endothelial barrier and insulin signaling in human umbilical vein endothelial cells (HUVEC), but increases NO release, reactive oxygen species (ROS) generation, and protein labeling by malondialdehyde (MDA) hallmarking oxidative stress and increased lipid peroxidation. This PA-induced stress eventually resulted in the loss of cell viability coincident with loss of insulin signaling. Supplementation with 5-aminoimidazole-4-carboxamide-riboside (AICAR) increased endothelial AMP-activated protein kinase (AMPK) activity, supported insulin signaling, and prevented the PA-induced increases in NO, ROS, and MDA, thus allowing to maintain HUVEC viability and barrier, and providing the means to study the long-term effects of high FFA levels in endothelial cultures. An upgraded cell-based model reproduces FFA-induced insulin resistance by demonstrating decreased NO production by vascular endothelium. [ABSTRACT FROM AUTHOR]

Published
2022
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21. The 5′ untranslated region of the maize alcohol dehydrogenase gene contains an internal ribosome entry site

Author

Mardanova, Eugenia S., Zamchuk, Ludmila A., Skulachev, Maxim V., and Ravin, Nikolai V.

Subjects
*DEHYDROGENASES, *MESSENGER RNA, *POTATO virus X, *MOSAIC viruses
Abstract

Abstract: Adh1, the maize gene encoding alcohol dehydrogenase ADH1, mRNA is efficiently translated in O2-deprived roots of maize, whereas many normal cellular mRNAs are poorly translated. It has been shown that adh, the 5′ untranslated region of adh1 mRNA, provides effective translation of mRNA under hypoxia and heat shock conditions in Nicotiana benthamiana plants. We found that adh contains the internal ribosome entry site (IRES) active both in vivo, in N. benthamiana cells, and in vitro, in rabbit reticulocyte lysate translation system. It is widely supposed that cap-independent internal initiation may maintain efficient translation of particular cellular mRNAs under a variety of stresses and other special conditions when cap-dependent protein synthesis is impaired. We evaluated the level of IRES activity of adh and found that its contribution to the overall translation of adh-containing mRNA in plant cells is less than 1% both under normal conditions and under heat shock. The low efficiency of this IRES is inconsistent with its possible role as a main factor ensuring efficient translation of adh1 mRNA under stress conditions. [Copyright &y& Elsevier]

Published
2008
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22. AICAR Protects Vascular Endothelial Cells from Oxidative Injury Induced by the Long-Term Palmitate Excess.

Author

Samsonov MV, Podkuychenko NV, Khapchaev AY, Efremov EE, Yanushevskaya EV, Vlasik TN, Lankin VZ, Stafeev IS, Skulachev MV, Shestakova MV, Vorotnikov AV, and Shirinsky VP

Subjects
AMP-Activated Protein Kinases metabolism, Aminoimidazole Carboxamide pharmacology, Apoptosis drug effects, Cell Survival drug effects, Cells, Cultured, Endothelium, Vascular metabolism, Fatty Acids, Nonesterified metabolism, Human Umbilical Vein Endothelial Cells metabolism, Humans, Insulin metabolism, Insulin Resistance physiology, Lipid Peroxidation drug effects, Malondialdehyde metabolism, Reactive Oxygen Species metabolism, Signal Transduction drug effects, Aminoimidazole Carboxamide analogs & derivatives, Endothelium, Vascular drug effects, Human Umbilical Vein Endothelial Cells drug effects, Oxidative Stress drug effects, Palmitates metabolism, Ribonucleotides pharmacology
Abstract

Hyperlipidemia manifested by high blood levels of free fatty acids (FFA) and lipoprotein triglycerides is critical for the progression of type 2 diabetes (T2D) and its cardiovascular complications via vascular endothelial dysfunction. However, attempts to assess high FFA effects in endothelial culture often result in early cell apoptosis that poorly recapitulates a much slower pace of vascular deterioration in vivo and does not provide for the longer-term studies of endothelial lipotoxicity in vitro. Here, we report that palmitate (PA), a typical FFA, does not impair, by itself, endothelial barrier and insulin signaling in human umbilical vein endothelial cells (HUVEC), but increases NO release, reactive oxygen species (ROS) generation, and protein labeling by malondialdehyde (MDA) hallmarking oxidative stress and increased lipid peroxidation. This PA-induced stress eventually resulted in the loss of cell viability coincident with loss of insulin signaling. Supplementation with 5-aminoimidazole-4-carboxamide-riboside (AICAR) increased endothelial AMP-activated protein kinase (AMPK) activity, supported insulin signaling, and prevented the PA-induced increases in NO, ROS, and MDA, thus allowing to maintain HUVEC viability and barrier, and providing the means to study the long-term effects of high FFA levels in endothelial cultures. An upgraded cell-based model reproduces FFA-induced insulin resistance by demonstrating decreased NO production by vascular endothelium.

Published
2021
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23. Perspectives of Homo sapiens lifespan extension: focus on external or internal resources?

Author

Skulachev VP, Shilovsky GA, Putyatina TS, Popov NA, Markov AV, Skulachev MV, and Sadovnichii VA

Subjects
Animals, Female, Humans, Male, Mole Rats physiology, Reactive Oxygen Species, Aging physiology, Longevity physiology
Abstract

Homo sapiens and naked mole rats ( Heterocephalus glaber ) are vivid examples of social mammals that differ from their relatives in particular by an increased lifespan and a large number of neotenic features. An important fact for biogerontology is that the mortality rate of H. glaber (a maximal lifespan of more than 32 years, which is very large for such a small rodent) negligibly grows with age. The same is true for modern people in developed countries below the age of 60. It is important that the juvenilization of traits that separate humans from chimpanzees evolved over thousands of generations and millions of years. Rapid advances in technology resulted in a sharp increase in the life expectancy of human beings during the past 100 years. Currently, the human life expectancy has exceeded 80 years in developed countries. It cannot be excluded that the potential for increasing life expectancy by an improvement in living conditions will be exhausted after a certain period of time. New types of geroprotectors should be developed that protect not only from chronic phenoptosis gradual poisoning of the body with reactive oxygen species (ROS) but also from acute phenoptosis, where strong increase in the level of ROS immediately kills an already aged individual. Geroprotectors might be another anti-aging strategy along with neoteny (a natural physiological phenomenon) and technical progress.

Published
2020
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24. Mitochondria-targeted antioxidants as highly effective antibiotics.

Author

Nazarov PA, Osterman IA, Tokarchuk AV, Karakozova MV, Korshunova GA, Lyamzaev KG, Skulachev MV, Kotova EA, Skulachev VP, and Antonenko YN

Subjects
Bacillus subtilis drug effects, Escherichia coli drug effects, HeLa Cells, Humans, Mycobacterium drug effects, Photobacterium drug effects, Plastoquinone pharmacology, Rhodobacter sphaeroides drug effects, Staphylococcus aureus drug effects, Anti-Bacterial Agents pharmacology, Antioxidants pharmacology, Mitochondria metabolism, Plastoquinone analogs & derivatives
Abstract

Mitochondria-targeted antioxidants are known to alleviate mitochondrial oxidative damage that is associated with a variety of diseases. Here, we showed that SkQ1, a decyltriphenyl phosphonium cation conjugated to a quinone moiety, exhibited strong antibacterial activity towards Gram-positive Bacillus subtilis, Mycobacterium sp. and Staphylococcus aureus and Gram-negative Photobacterium phosphoreum and Rhodobacter sphaeroides in submicromolar and micromolar concentrations. SkQ1 exhibited less antibiotic activity towards Escherichia coli due to the presence of the highly effective multidrug resistance pump AcrAB-TolC. E. coli mutants lacking AcrAB-TolC showed similar SkQ1 sensitivity, as B. subtilis. Lowering of the bacterial membrane potential by SkQ1 might be involved in the mechanism of its bactericidal action. No significant cytotoxic effect on mammalian cells was observed at bacteriotoxic concentrations of SkQ1. Therefore, SkQ1 may be effective in protection of the infected mammals by killing invading bacteria.

Published
2017
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25. Improved health-span and lifespan in mtDNA mutator mice treated with the mitochondrially targeted antioxidant SkQ1.

Author

Shabalina IG, Vyssokikh MY, Gibanova N, Csikasz RI, Edgar D, Hallden-Waldemarson A, Rozhdestvenskaya Z, Bakeeva LE, Vays VB, Pustovidko AV, Skulachev MV, Cannon B, Skulachev VP, and Nedergaard J

Subjects
Adipose Tissue, Brown drug effects, Adipose Tissue, Brown metabolism, Aging metabolism, Animals, Body Temperature physiology, Body Weight physiology, DNA, Mitochondrial genetics, Heart drug effects, Liver drug effects, Liver metabolism, Longevity physiology, Mice, Mitochondria genetics, Mitochondria metabolism, Muscle, Skeletal drug effects, Muscle, Skeletal metabolism, Myocardium metabolism, Plastoquinone pharmacology, Reactive Oxygen Species metabolism, Aging drug effects, DNA, Mitochondrial metabolism, Longevity drug effects, Mutation, Plastoquinone analogs & derivatives
Abstract

MtDNA mutator mice exhibit marked features of premature aging. We find that these mice treated from age of ≈100 days with the mitochondria-targeted antioxidant SkQ1 showed a delayed appearance of traits of aging such as kyphosis, alopecia, lowering of body temperature, body weight loss, as well as ameliorated heart, kidney and liver pathologies. These effects of SkQ1 are suggested to be related to an alleviation of the effects of an enhanced reactive oxygen species (ROS) level in mtDNA mutator mice: the increased mitochondrial ROS released due to mitochondrial mutations probably interact with polyunsaturated fatty acids in cardiolipin, releasing malondialdehyde and 4-hydroxynonenal that form protein adducts and thus diminishes mitochondrial functions. SkQ1 counteracts this as it scavenges mitochondrial ROS. As the results, the normal mitochondrial ultrastructure is preserved in liver and heart; the phosphorylation capacity of skeletal muscle mitochondria as well as the thermogenic capacity of brown adipose tissue is also improved. The SkQ1-treated mice live significantly longer (335 versus 290 days). These data may be relevant in relation to treatment of mitochondrial diseases particularly and the process of aging in general.

Published
2017
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26. Mitochondria-targeted antioxidant SkQ1 improves impaired dermal wound healing in old mice.

Author

Demyanenko IA, Popova EN, Zakharova VV, Ilyinskaya OP, Vasilieva TV, Romashchenko VP, Fedorov AV, Manskikh VN, Skulachev MV, Zinovkin RA, Pletjushkina OY, Skulachev VP, and Chernyak BV

Subjects
Aging, Animals, Cadherins metabolism, Cell Movement drug effects, Cytokines metabolism, Epithelium growth & development, Epithelium metabolism, Extracellular Matrix Proteins biosynthesis, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, Myofibroblasts metabolism, Plastoquinone pharmacology, Reactive Oxygen Species metabolism, Skin injuries, Transforming Growth Factor beta pharmacology, Antioxidants pharmacology, Mitochondria drug effects, Plastoquinone analogs & derivatives, Wound Healing drug effects
Abstract

The process of skin wound healing is delayed or impaired in aging animals. To investigate the possible role of mitochondrial reactive oxygen species (mtROS) in cutaneous wound healing of aged mice, we have applied the mitochondria-targeted antioxidant SkQ1. The SkQ1 treatment resulted in accelerated resolution of the inflammatory phase, formation of granulation tissue, vascularization and epithelization of the wounds. The wounds of SkQ1-treated mice contained increased amount of myofibroblasts which produce extracellular matrix proteins and growth factors mediating granulation tissue formation. This effect resembled SkQ1-induced differentiation of fibroblasts to myofibroblast, observed earlierin vitro. The Transforming Growth Factor beta (TGFb) produced by SkQ1-treated fibroblasts was found to stimulated motility of endothelial cells in vitro, an effect which may underlie pro-angiogenic action of SkQ1 in the wounds. In vitro experiments showed that SkQ1 prevented decomposition of VE-cadherin containing contacts and following increase in permeability of endothelial cells monolayer, induced by pro-inflammatory cytokine TNF. Prevention of excessive reaction of endothelium to the pro-inflammatory cytokine(s) might account for anti-inflammatory effect of SkQ1. Our findings point to an important role of mtROS in pathogenesis of age-related chronic wounds.

Published
2015
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27. Aging As An Evolvability-Increasing Program Which Can Be Switched Off By Organism To Mobilize Additional Resources For Survival.

Author

Skulachev MV, Severin FF, and Skulachev VP

Abstract

During the last decade, several pieces of convincing evidence were published indicating that aging of living organisms is programmed, being a particular case of programmed death of organism (phenoptosis). Among them, the following observations can be mentioned [1]. Species were described that show negligible aging. In mammals, the naked mole rat is the most impressive example. This is a rodent of mouse size living at least 10-fold longer than a mouse and having fecundity higher than a mouse and no age-related diseases [2]. In some species with high aging rate, genes responsible for active organization of aging by poisoning of the organism with endogenous metabolites have been identified [3]. In women, standard deviations divided by the mean are the same for age of menarche (an event controlled by the ontogenetic program) and for age of menopause (an aging-related event) [4]. Inhibitors of programmed cell death (apoptosis and necrosis) retard and in certain cases even reverse the development of age-dependent pathologies [5]. In aging species, the rate of aging is regulated by the individual which responds by changes in this rate to changes in the environmental conditions. In this review, we consider point [5] in detail. Data are summarized suggesting that inhibition of aging rate by moderate food restriction can be explained assuming that such restriction is perceived by the organism as a signal of future starvation. In response to this dramatic signal, the organism switches off such an optional program as aging, mobilizing in such a way additional reserves for survival. A similar explanation is postulated for geroprotective effects of heavy muscle work, a lowering or a rise in the external temperature, small amounts of metabolic poisons (hormesis), low doses of radiation, and other deleterious events. On the contrary, sometimes certain positive signals can prolong life by inhibiting the aging program in individuals who are useful for the community (e.g., geroprotective psychological factors). Similarly, dangerous individuals can be eliminated by programmed death due to operation of progeric psychological factors. The interplay of all these signals results in the final decision of the organism concerning its aging - to accelerate or to decelerate this process. Thus, paradoxically, such an originally counterproductive program as aging appears to be useful for the individual since this program can be switched off by the individual for a certain period of time, an action that thereby increases its resources in crucial periods of life.

Published
2015

28. Mitochondria-targeted antioxidant SkQ1 reverses glaucomatous lesions in rabbits.

Author

Iomdina EN, Khoroshilova-Maslova IP, Robustova OV, Averina OA, Kovaleva NA, Aliev G, Reddy VP, Zamyatnin AA Jr, Skulachev MV, Senin II, and Skulachev VP

Subjects
Animals, Antioxidants therapeutic use, Disease Models, Animal, Glaucoma physiopathology, Intraocular Pressure drug effects, Male, Plastoquinone pharmacology, Plastoquinone therapeutic use, Rabbits, Antioxidants pharmacology, Glaucoma drug therapy, Mitochondria drug effects, Plastoquinone analogs & derivatives
Abstract

Glaucoma is the main cause of irreversible blindness worldwide. This disease is characterized by apoptosis of retinal ganglion cells (RGC) and visual field loss that seems to be related to elevated intraocular pressure (IOP). Several lines of evidences have implicated the crucial role of mitochondrial dysfunction in the pathogenesis of glaucoma. Increased mitochondrial oxidative stress in RGC may underlie or contribute to susceptibility of RGC to apoptosis. In our work we (i) designed a rabbit model of chronic, moderately elevated IOP for studying glaucoma and (ii) demonstrated efficacy of mitochondria-targeted antioxidant SkQ1 as a tool to reverse several traits of experimental glaucoma induced by a series of injections of hydroxypropylmethylcellulose (HPMC) to the anterior chamber of the rabbit eye. It is shown that 6 months instillations of drops of 0.2.5-5 microM solution of SkQ1 normalize IOP and eye hydrodynamics and abolish an increase in lens thickness that accompanies glaucoma.

Published
2015
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29. Advances in development of rechargeable mitochondrial antioxidants.

Author

Lukashev AN, Skulachev MV, Ostapenko V, Savchenko AY, Pavshintsev VV, and Skulachev VP

Subjects
Aging pathology, Animals, Antioxidants chemistry, Antioxidants pharmacology, Disease, Humans, Liver drug effects, Liver pathology, Mitochondria drug effects, Uncoupling Agents pharmacology, Uncoupling Agents therapeutic use, Antioxidants therapeutic use, Mitochondria metabolism
Abstract

It has been about 15 years since the introduction of the rechargeable mitochondria-targeted antioxidants (RMA). Two major groups have been developing RMA of the MitoQ and SkQ types independently, and many additional trials have been done by other researchers. This has provided solid preclinical evidence of RMA efficacy in various models. Human trials of systemic MitoQ were not followed by further advances, but the safety of MitoQ and, most likely, other RMA in humans has been demonstrated. A prooxidant effect at higher concentrations of RMA was described. For RMA of the SkQ type, a large window between anti- and prooxidant concentrations was observed, which makes SkQs promising as potential medicines. Significant RMA-induced improvements in many diseases that do not have an accepted treatment have been described. This justifies further clinical trials of RMA., (© 2014 Elsevier Inc. All rights reserved.)

Published
2014
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30. Effects of the mitochondria-targeted antioxidant SkQ1 on lifespan of rodents.

Author

Anisimov VN, Egorov MV, Krasilshchikova MS, Lyamzaev KG, Manskikh VN, Moshkin MP, Novikov EA, Popovich IG, Rogovin KA, Shabalina IG, Shekarova ON, Skulachev MV, Titova TV, Vygodin VA, Vyssokikh MY, Yurova MN, Zabezhinsky MA, and Skulachev VP

Subjects
Animals, Arvicolinae, Cricetinae, Female, Life Expectancy, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mitochondria metabolism, Plastoquinone pharmacology, Aging drug effects, Antioxidants pharmacology, Longevity drug effects, Mitochondria drug effects, Plastoquinone analogs & derivatives
Abstract

The effect of the mitochondria-targeted, plastoquinone-containing antioxidant SkQ1 on the lifespan of outbred mice and of three strains of inbred mice was studied. To this end, low pathogen (LP) or specific pathogen free (SPF) vivaria in St. Petersburg, Moscow, and Stockholm were used. For comparison, we also studied mole-voles and dwarf hamsters, two wild species of small rodents kept under simulated natural conditions. It was found that substitution of a LP vivarium for a conventional (non-LP) one doubled the lifespan of female outbred mice, just as SkQ1 did in a non-LP vivarium. SkQ1 prevented age-dependent disappearance of estrous cycles of outbred mice in both LP and non-LP vivaria. In the SPF vivarium in Moscow, male BALB/c mice had shorter lifespan than females, and SkQ1 increased their lifespan to the values of the females. In the females, SkQ1 retarded development of such trait of aging as heart mass increase. Male C57Bl/6 mice housed individually in the SPF vivarium in Stockholm lived as long as females. SkQ1 increased the male lifespan, the longevity of the females being unchanged. SkQ1 did not change food intake by these mice. Dwarf hamsters and mole-voles kept in outdoor cages or under simulated natural conditions lived longer if treated with SkQ1. The effect of SkQ1 on longevity of females is assumed to mainly be due to retardation of the age-linked decline of the immune system. For males under LP or SPF conditions, SkQ1 increased the lifespan, affecting also some other system(s) responsible for aging.

Published
2011
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