Your search keyword '"Snytnikova, Olga A."' showing total 8 results

1. Quantitative metabolomic analysis of changes in the lens and aqueous humor under development of age-related nuclear cataract.

Author

Yanshole VV, Yanshole LV, Snytnikova OA, and Tsentalovich YP

Subjects

Age Factors, Aged, Aged, 80 and over, Antioxidants metabolism, Chromatography, High Pressure Liquid methods, Female, Humans, Magnetic Resonance Spectroscopy methods, Male, Mass Spectrometry methods, Metabolomics methods, Middle Aged, Aqueous Humor metabolism, Cataract metabolism, Lens, Crystalline metabolism

Abstract

Introduction: Metabolites are essential for the proper functioning of the eye lens, they either enter the lens from the aqueous humor (AH), or are synthesized in the lens epithelium. Antioxidants, osmolytes and UV filters are especially important for the lens protection, and their lack may cause the development of ophthalmic diseases., Objectives: Comparison of the metabolomic compositions of lenses and AH taken from cataract patients with that taken from human cadavers without cataract can shed light onto molecular mechanisms underlying onset of age-related nuclear cataract., Methods: Combined use of 1 H nuclear magnetic resonance and high performance liquid chromatography with optical and high-resolution mass spectrometric detection for the identification and quantification of metabolites in the lens and AH extracts., Results: The concentrations of 86 metabolites were determined for four groups of samples, including lenses and AH from cataract patients and from human cadavers. In cataractous lens the most abundant metabolites are (in descending order): myo-inositol, lactate, acetate, glutamate, glutathione; in AH-lactate, glucose, glutamine, alanine, valine. The concentrations of the majority of metabolites in normal post-mortem samples of both lens and AH are higher than that in samples from the cataract patients., Conclusions: Comparison of metabolite concentrations in lens and corresponding AH reveal that the most important for the lens protection metabolites are synthesized in the lens epithelial cells. The reduced levels of antioxidants, UV filters, and osmolytes were found in the cataractous lenses what cannot be explained by post-mortem changes in normal lens; that indicates that the age-related nuclear cataract development may originate from the dysfunction of the lens epithelial cells.

Published

2019

2. Cataract-specific posttranslational modifications and changes in the composition of urea-soluble protein fraction from the rat lens.

Author

Yanshole LV, Cherepanov IV, Snytnikova OA, Yanshole VV, Sagdeev RZ, and Tsentalovich YP

Subjects

Acetylation drug effects, Amino Acid Sequence, Amino Acids metabolism, Animals, Cataract pathology, Chemical Fractionation, Crystallins chemistry, Crystallins metabolism, Electrophoresis, Gel, Two-Dimensional, Humans, Lens, Crystalline pathology, Molecular Sequence Data, Oxidation-Reduction drug effects, Oxidative Stress drug effects, Phosphorylation drug effects, Rats, Rats, Wistar, Solubility drug effects, Tandem Mass Spectrometry, Cataract metabolism, Eye Proteins metabolism, Lens, Crystalline metabolism, Protein Processing, Post-Translational drug effects, Urea pharmacology

Abstract

Purpose: To determine age-related changes in the composition of the urea-soluble (US) protein fraction from lenses of senescence-accelerated OXYS (cataract model) and Wistar (control) rats and to establish posttranslational modifications (PTMs) occurring under enhanced oxidative stress in OXYS lenses., Methods: The identity and the relative abundance of crystallins in the US fractions were determined using two-dimensional gel electrophoresis (2-DE) and matrix-assisted laser desorption ionization-time of flight mass spectrometry (MS). The identities and the positions of PTMs were established using MS/MS measurements., Results: Two-dimensional gel electrophoresis maps of US protein fractions were obtained for lenses of 3-, 12-, and 62-week-old Wistar and OXYS rats, and the relative abundance of different isoforms of α-, β-, and γ-crystallins was determined. β-Crystallins were the major contributor of the US fraction in 3-week-old lenses (above 50%), γ-crystallins in 12-week-old lenses (50-60%), and in 62-week-old lenses, the contributions from all three crystallin families leveled out. The major interstrain difference was the elevated level of α-crystallins in the US fraction from 12-week-old OXYS lenses. Spots with increased relative abundance in OXYS maps were attributed to the cataract-specific spots of interest. The crystallins from these spots were subjected to MS/MS analysis, and the positions of acetylation, oxidation, deamidation, and phosphorylation were established., Conclusions: The increased relative abundance of α-crystallins in the US fraction from 12-week-old OXYS lenses points to the fast insolubilization of α-crystallins under oxidative stress. Most of the PTMs attributed to the cataract-specific modifications also correspond to α-crystallins. These PTMs include oxidation of methionine residues, deamidation of asparagine and glutamine residues, and phosphorylation of serine and threonine residues.

Published

2013

3. Age-related changes in the water-soluble lens protein composition of Wistar and accelerated-senescence OXYS rats.

Author

Kopylova LV, Cherepanov IV, Snytnikova OA, Rumyantseva YV, Kolosova NG, Tsentalovich YP, and Sagdeev RZ

Subjects

Aging, Premature genetics, Animals, Cataract genetics, Cataract pathology, Disease Models, Animal, Electrophoresis, Gel, Two-Dimensional, Humans, Lens, Crystalline pathology, Rats, Rats, Transgenic, Rats, Wistar, Reverse Transcriptase Polymerase Chain Reaction, Solubility, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Water, alpha-Crystallin A Chain genetics, beta-Crystallin B Chain genetics, gamma-Crystallins genetics, Aging, Premature metabolism, Cataract metabolism, Lens, Crystalline metabolism, alpha-Crystallin A Chain metabolism, beta-Crystallin B Chain metabolism, gamma-Crystallins metabolism

Abstract

Purpose: To determine the age-related and the cataract-specific changes in the crystallin composition in lenses of accelerated-senescence OXYS (cataract model) and Wistar (control) rats., Methods: The water soluble (WS) and insoluble (WIS) fractions of the lens proteins were separated; the identity and relative abundance of each crystallin in WS fraction were determined with the use of two-dimensional electrophoresis (2-DE) and Matrix-Assisted Laser Desorption Ionization-Time Of Flight (MALDI-TOF) mass spectrometry. All statistical calculations were performed using the software package Statistica 6.0 by factor dispersion analysis (ANOVA/MANOVA) and Newman-Keuls post-hoc test for comparison of group mean values., Results: The WIS protein content increased significantly in the aged animal lenses; the WIS/WS ratio increases in approximately 8 times to the age of 62 weeks. The interstrain difference was insignificant in this experiment. 2-DE maps of the young rat lenses (3 weeks) showed single spots for each lens protein while in older lenses (12 and 62 weeks) each crystallin was presented by several spots. The abundance of γA-γF-crystallins in WS fraction significantly decreases with age. A significant increase in the percentage abundance was also found for α-crystallins and βB2-crystallin from 3 to 12 weeks. The major differences between Wistar and OXYS lenses are the faster decay of the content of γA-γF-crystallins in OXYS lenses, and the significant decrease of unmodified αA-crystallin abundance in old OXYS lenses., Conclusions: The presented results demonstrate that the increase of the water-insoluble (WIS) protein fraction is rather age-specific than cataract-specific phenomenon. The major age-related changes in WS protein composition are the fast insolubilization of γ-crystallins, and the increase of αB- and βB2-crystallin abundance. The main interstrain differences, which could be attributed to the cataract-specific processes, are the faster decay of the content of γ-crystallins and the significant decrease of unmodified αA-crystallin abundance in the OXYS lenses.

Published

2011

4. Deaminated UV filter 3-hydroxykynurenine O-beta-D-glucoside is found in cataractous human lenses.

Author

Snytnikova OA, Fursova AZh, Chernyak EI, Vasiliev VG, Morozov SV, Kolosova NG, and Tsentalovich YP

Subjects

Aged, Aged, 80 and over, Chromatography, High Pressure Liquid, Deamination, Glucosides chemistry, Glutathione analysis, Humans, Kynurenine analysis, Kynurenine chemistry, Middle Aged, Cataract metabolism, Glucosides analysis, Kynurenine analogs & derivatives, Lens, Crystalline chemistry, Ultraviolet Rays

Abstract

Analysis of UV filter levels in 48 cataractous human lenses was performed with the use of HPLC. A new chromophore with the absorption maximum at 410nm and molecular mass of 369Da was detected and assigned as deaminated 3-hydroxykynurenine O-beta-D-glucoside (3OHCKAG). Cataractous lenses are characterized by the wide range of the UV filter concentrations and remarkably lower levels of UV filters and glutathione than published for the normal lenses. No correlation between the lens age and the level of UV filters has been found in cataractous lenses.

Published

2008

5. Metabolomics of the rat lens: A combined LC-MS and NMR study.

Author

Yanshole, Vadim V., Snytnikova, Olga A., Kiryutin, Alexey S., Yanshole, Lyudmila V., Sagdeev, Renad Z., and Tsentalovich, Yuri P.

Subjects

*METABOLOMICS, *CRYSTALLINE lens, *LIQUID chromatography-mass spectrometry, *NUCLEAR magnetic resonance spectroscopy, *MOLECULAR weights, *LABORATORY rats

Abstract

This work is the first comprehensive report on the quantitative metabolomic composition of the rat lens. Quantitative metabolomic profiles of lenses were acquired with the combined use of high-frequency nuclear magnetic resonance (NMR) and high-performance liquid chromatography with high-resolution mass-spectrometric detection (LC-MS) methods. More than forty low molecular weight compounds found in the lens have been reliably identified and quantified. The most abundant metabolites in the 3-month-old Wistar rat lens are taurine, hypotaurine, lactate, phosphocholine and reduced glutathione. The analysis of age-related changes in the lens metabolomic composition shows a gradual decrease of the content of most metabolites. This decrease is the most pronounced between 1 and 3 months, which probably corresponds to the completion of the lens maturation in one-month-old rats and to the high rate of the young lens growth. The enhanced levels of tryptophan, tyrosine, carnitine, glycerophosphate, GSH and GSSG were found in lenses of senescence-accelerated OXYS rats; for some metabolites, this effect may probably be attributed to the compensatory response to oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2014

6. Magnetic resonance imaging (MRI) study of the water content and transport in rat lenses.

Author

Dobretsov, Egor A., Snytnikova, Olga A., Koptyug, Igor V., Kaptein, Robert, and Tsentalovich, Yuri P.

Subjects

*MAGNETIC resonance imaging, *LABORATORY rats, *BIOLOGICAL transport, *OXIDATIVE stress, *PHOSPHATE transport proteins, *WATER

Abstract

Abstract: NMR micro-imaging technique has been used for the measurement of the water content distribution in lenses of senescence-accelerated OXYS rats and age-matched Wistar rats, as well as for the study of water and phosphate transport in rat lenses. The water content in the lens cortex is significantly higher than in the nucleus; the spatial gradient of the water content becomes steeper with age. No difference in the water content distribution has been found between Wistar and OXYS rat lenses of matching ages, although cataract onset in the OXYS rat lens occurs much earlier due to the enhanced generation of reactive oxygen species associated with oxidative stress. This finding implies that cataract development does not lead to significant changes in water content distribution inside the lens. The water transport in rat lenses slows down with age, and in OXYS lenses it is somewhat faster than in lenses of Wistar rats, probably due to the compensatory response to oxidative stress. The application of 31P MRI for the monitoring of phosphate penetration into a lens has been performed for the first time. It is found that phosphate transport in a lens is significantly slower than that of water. [Copyright &y& Elsevier]

Published

2013

7. UV filter decomposition. A study of reactions of 4-(2-aminophenyl)-4-oxocrotonic acid with amino acids and antioxidants present in the human lens

Author

Kopylova, Lyudmila V., Snytnikova, Olga A., Chernyak, Elena I., Morozov, Sergey V., and Tsentalovich, Yuri P.

Subjects

*KYNURENINE, *CATARACT, *DEAMINATION, *ANTIOXIDANTS

Abstract

Abstract: Deamination of UV filters, such as kynurenine (KN), in the human lens results in protein modification. Thermal reactions of the product of kynurenine deamination, 4-(2-aminophenyl)-4-oxocrotonic acid (CKA), with amino acids (histidine, lysine, methionine, tryptophan, tyrosine, cysteine) and antioxidants (ascorbate, NADH, glutathione reduced) were studied. The rate constants of the reactions under physiological conditions were measured. The rate constants of CKA addition to cysteine k Cys =36±4M−1 s−1 and to glutathione k GSH =2.1±0.2M−1 s−1 are 4–5 orders of magnitude higher than the rate constants of CKA reactions with the other amino acids and antioxidants. The Arrhenius parameters for k Cys and k GSH were determined: A GSH =(1.8±0.7)×105 M−1 s−1, E GSH =29.2±5.6kJmol−1, A Cys =(2.7±0.9)×108 M−1 s−1, E Cys =40.4±5.7kJmol−1. The large difference in frequency factors for k Cys and k GSH is attributed to steric hindrance, peculiar to the bulky GSH molecule. [Copyright &y& Elsevier]

Published

2007

8. Photochemical and thermal reactivity of kynurenine

Author

Tsentalovich, Yuri P., Snytnikova, Olga A., Forbes, Malcolm D.E., Chernyak, Elena I., and Morozov, Sergey V.

Subjects

*TRYPTOPHAN, *AMINO acids, *NOBLE gases, *QUINOLINE

Abstract

Abstract: The thermal and photochemical reactivity of kynurenine (KN), a tryptophan metabolite found in human lenses, has been studied in aqueous solution. The decarboxylation reaction of KN, resulting in the formation of 4-hydroxyquinoline, is reported for the first time. Rate constants for KN deamination and decarboxylation were determined in the temperature range 50–90°C. The quantum yields for KN photodecomposition under argon were measured to be ΦAr =(2.0±0.2)×10−5 and under oxygen ΦO2 =(1.1±0.1)×10−4. [Copyright &y& Elsevier]

Published

2006