Your search keyword '"Prokhorova, Tatyana A"' showing total 12 results

1. Changes in systemic GDF15 across the adult lifespan and their impact on maximal muscle power:the Copenhagen Sarcopenia Study

Author

Alcazar, Julian, Frandsen, Ulrik, Prokhorova, Tatyana, Kamper, Rikke S., Haddock, Bryan, Aagaard, Per, Suetta, Charlotte, Alcazar, Julian, Frandsen, Ulrik, Prokhorova, Tatyana, Kamper, Rikke S., Haddock, Bryan, Aagaard, Per, and Suetta, Charlotte

Abstract

Background: Although growth differentiation factor 15 (GDF15) is known to increase with disease and is associated with low physical performance, the role of GDF15 in normal ageing is still not fully understood. Specifically, the influence of circulating GDF15 on impairments in maximal muscle power (a major contributor to functional limitations) and the underlying components has not been investigated. Methods: Data from 1305 healthy women and men aged 20 to 93 years from The Copenhagen Sarcopenia Study were analysed. Circulating levels of GDF15 and markers of inflammation (tumor necrosis factor-alpha, interleukin-6, and high-sensitivity C-reactive protein) were measured by ELISA (R&D Systems) and multiplex bead-based immunoassays (Bio-Rad). Relative (normalized to body mass), allometric (normalized to height squared), and specific (normalized to leg muscle mass) muscle power were assessed by the Nottingham power rig [leg extension power (LEP)] and the 30 s sit-to-stand (STS) muscle power test. Total body fat, visceral fat, and leg lean mass were assessed by dual energy X-ray absorptiometry. Leg skeletal muscle index was measured as leg lean mass normalized to body height squared. Results: Systemic levels of GDF15 increased progressively as a function of age in women (1.1 ± 0.4 pg·mL−1·year−1) and men (3.3 ± 0.6 pg·mL−1·year−1) (both P < 0.05). Notably, GDF15 increased at a faster rate from the age of 65 years in women (11.5 ± 1.2 pg·mL−1·year−1, P < 0.05) and 70 years in men (19.3 ± 2.3 pg·mL−1·year−1, P < 0.05), resulting in higher GDF15 levels in men compared with women above the age of 65 years (P < 0.05). Independently of age and circulatory markers of inflammation, GDF15 was negatively correlated to relative STS power (P < 0.05) but not LEP, in both women and men. These findings were mainly explained by negative associations of GDF15 with specific STS po

Published

2021

2. Changes in systemic GDF15 across the adult lifespan and their impact on maximal muscle power:the Copenhagen Sarcopenia Study

Author

Alcazar, Julian, Frandsen, Ulrik, Prokhorova, Tatyana, Kamper, Rikke S., Haddock, Bryan, Aagaard, Per, Suetta, Charlotte, Alcazar, Julian, Frandsen, Ulrik, Prokhorova, Tatyana, Kamper, Rikke S., Haddock, Bryan, Aagaard, Per, and Suetta, Charlotte

Abstract

Background: Although growth differentiation factor 15 (GDF15) is known to increase with disease and is associated with low physical performance, the role of GDF15 in normal ageing is still not fully understood. Specifically, the influence of circulating GDF15 on impairments in maximal muscle power (a major contributor to functional limitations) and the underlying components has not been investigated. Methods: Data from 1305 healthy women and men aged 20 to 93 years from The Copenhagen Sarcopenia Study were analysed. Circulating levels of GDF15 and markers of inflammation (tumor necrosis factor-alpha, interleukin-6, and high-sensitivity C-reactive protein) were measured by ELISA (R&D Systems) and multiplex bead-based immunoassays (Bio-Rad). Relative (normalized to body mass), allometric (normalized to height squared), and specific (normalized to leg muscle mass) muscle power were assessed by the Nottingham power rig [leg extension power (LEP)] and the 30 s sit-to-stand (STS) muscle power test. Total body fat, visceral fat, and leg lean mass were assessed by dual energy X-ray absorptiometry. Leg skeletal muscle index was measured as leg lean mass normalized to body height squared. Results: Systemic levels of GDF15 increased progressively as a function of age in women (1.1 ± 0.4 pg·mL−1·year−1) and men (3.3 ± 0.6 pg·mL−1·year−1) (both P < 0.05). Notably, GDF15 increased at a faster rate from the age of 65 years in women (11.5 ± 1.2 pg·mL−1·year−1, P < 0.05) and 70 years in men (19.3 ± 2.3 pg·mL−1·year−1, P < 0.05), resulting in higher GDF15 levels in men compared with women above the age of 65 years (P < 0.05). Independently of age and circulatory markers of inflammation, GDF15 was negatively correlated to relative STS power (P < 0.05) but not LEP, in both women and men. These findings were mainly explained by negative associations of GDF15 with specific STS po

Published

2021

3. Yury Buida and Fyodor Dostoyevsky: Types of Intertextual Connections

Author

Shalagina, Olga Vadimovna, Prokhorova, Tatyana Gennadyevna, Shamina, Vera B., Bogdanova, Olga, Shalagina, Olga Vadimovna, Prokhorova, Tatyana Gennadyevna, Shamina, Vera B., and Bogdanova, Olga

Abstract

The essay addresses various forms of dialogue with F. M. Dostoevsky in the cycle of stories by Yuri Buida ‘The Osor’ins Chronicles’. The authors show that this dialogue is manifested through intertextual connections, allusions, details, narrative techniques defining the inner subplot of the cycle associated with the types of characters, philosophical problems inherent in Dostoevsky’s works (freedom and lack of freedom, crime and punishment, passion and lust), and also with the prophetic forebodings of the writer., El ensayo aborda diversas formas de diálogo con F. M. Dostoievski en el ciclo de historias de Yuri Buida "The Osor’ins Chronicles". Los autores muestran que este diálogo se manifiesta a través de conexiones intertextuales, alusiones, detalles, técnicas narrativas que definen la trama interna del ciclo asociado con los tipos de personajes, problemas filosóficos inherentes a las obras de Dostoievski (libertad y falta de libertad, crimen y castigo, pasión y lujuria), y también con los presentimientos proféticos del escritor.

Published

2020

4. Yury Buida and Fyodor Dostoyevsky: Types of Intertextual Connections

Author

Shalagina, Olga Vadimovna, Prokhorova, Tatyana Gennadyevna, Shamina, Vera B., Bogdanova, Olga, Shalagina, Olga Vadimovna, Prokhorova, Tatyana Gennadyevna, Shamina, Vera B., and Bogdanova, Olga

Abstract

The essay addresses various forms of dialogue with F. M. Dostoevsky in the cycle of stories by Yuri Buida ‘The Osor’ins Chronicles’. The authors show that this dialogue is manifested through intertextual connections, allusions, details, narrative techniques defining the inner subplot of the cycle associated with the types of characters, philosophical problems inherent in Dostoevsky’s works (freedom and lack of freedom, crime and punishment, passion and lust), and also with the prophetic forebodings of the writer., El ensayo aborda diversas formas de diálogo con F. M. Dostoievski en el ciclo de historias de Yuri Buida "The Osor’ins Chronicles". Los autores muestran que este diálogo se manifiesta a través de conexiones intertextuales, alusiones, detalles, técnicas narrativas que definen la trama interna del ciclo asociado con los tipos de personajes, problemas filosóficos inherentes a las obras de Dostoievski (libertad y falta de libertad, crimen y castigo, pasión y lujuria), y también con los presentimientos proféticos del escritor.

Published

2020

5. Skeletal Muscle Microvascular Changes in Response to Short-Term Blood Flow Restricted Training:Exercise-Induced Adaptations and Signs of Perivascular Stress

Author

Nielsen, Jakob L, Frandsen, Ulrik, Jensen, Kasper Y, Prokhorova, Tatyana A, Dalgaard, Line B, Bech, Rune D, Nygaard, Tobias, Suetta, Charlotte, Aagaard, Per, Nielsen, Jakob L, Frandsen, Ulrik, Jensen, Kasper Y, Prokhorova, Tatyana A, Dalgaard, Line B, Bech, Rune D, Nygaard, Tobias, Suetta, Charlotte, and Aagaard, Per

Abstract

Aim: Previous reports suggest that low-load muscle exercise performed under blood flow restriction (BFR) may lead to endurance adaptations. However, only few and conflicting results exist on the magnitude and timing of microvascular adaptations, overall indicating a lack of angiogenesis with BFR training. The present study, therefore, aimed to examine the effect of short-term high-frequency BFR training on human skeletal muscle vascularization. Methods: Participants completed 3 weeks of high-frequency (one to two daily sessions) training consisting of either BFR exercise [(BFRE) n = 10, 22.8 ± 2.3 years; 20% one-repetition maximum (1RM), 100 mmHg] performed to concentric failure or work-matched free-flow exercise [(CON) n = 8, 21.9 ± 3.0 years; 20% 1RM]. Muscle biopsies [vastus lateralis (VL)] were obtained at baseline, 8 days into the intervention, and 3 and 10 days after cessation of the intervention to examine capillary and perivascular adaptations, as well as angiogenesis-related protein signaling and gene expression. Results: Capillary per myofiber and capillary area (CA) increased 21-24 and 25-34%, respectively, in response to BFRE (P < 0.05-0.01), while capillary density (CD) remained unchanged. Overall, these adaptations led to a consistent elevation (15-16%) in the capillary-to-muscle area ratio following BFRE (P < 0.05-0.01). In addition, evaluation of perivascular properties indicated thickening of the perivascular basal membrane following BFRE. No or only minor changes were observed in CON. Conclusion: This study is the first to show that short-term high-frequency, low-load BFRE can lead to microvascular adaptations (i.e., capillary neoformation and changes in morphology), which may contribute to the endurance effects previously documented with BFR training. The observation of perivascular membrane thickening suggests that high-frequency BFRE may be associated with significant vascular stress.

Published

2020

6. Skeletal Muscle Microvascular Changes in Response to Short-Term Blood Flow Restricted Training:Exercise-Induced Adaptations and Signs of Perivascular Stress

Author

Nielsen, Jakob L, Frandsen, Ulrik, Jensen, Kasper Y, Prokhorova, Tatyana A, Dalgaard, Line B, Bech, Rune D, Nygaard, Tobias, Suetta, Charlotte, Aagaard, Per, Nielsen, Jakob L, Frandsen, Ulrik, Jensen, Kasper Y, Prokhorova, Tatyana A, Dalgaard, Line B, Bech, Rune D, Nygaard, Tobias, Suetta, Charlotte, and Aagaard, Per

Abstract

Aim: Previous reports suggest that low-load muscle exercise performed under blood flow restriction (BFR) may lead to endurance adaptations. However, only few and conflicting results exist on the magnitude and timing of microvascular adaptations, overall indicating a lack of angiogenesis with BFR training. The present study, therefore, aimed to examine the effect of short-term high-frequency BFR training on human skeletal muscle vascularization. Methods: Participants completed 3 weeks of high-frequency (one to two daily sessions) training consisting of either BFR exercise [(BFRE) n = 10, 22.8 ± 2.3 years; 20% one-repetition maximum (1RM), 100 mmHg] performed to concentric failure or work-matched free-flow exercise [(CON) n = 8, 21.9 ± 3.0 years; 20% 1RM]. Muscle biopsies [vastus lateralis (VL)] were obtained at baseline, 8 days into the intervention, and 3 and 10 days after cessation of the intervention to examine capillary and perivascular adaptations, as well as angiogenesis-related protein signaling and gene expression. Results: Capillary per myofiber and capillary area (CA) increased 21-24 and 25-34%, respectively, in response to BFRE (P < 0.05-0.01), while capillary density (CD) remained unchanged. Overall, these adaptations led to a consistent elevation (15-16%) in the capillary-to-muscle area ratio following BFRE (P < 0.05-0.01). In addition, evaluation of perivascular properties indicated thickening of the perivascular basal membrane following BFRE. No or only minor changes were observed in CON. Conclusion: This study is the first to show that short-term high-frequency, low-load BFRE can lead to microvascular adaptations (i.e., capillary neoformation and changes in morphology), which may contribute to the endurance effects previously documented with BFR training. The observation of perivascular membrane thickening suggests that high-frequency BFRE may be associated with significant vascular stress.

Published

2020

7. Blood flow restricted training leads to myocellular macrophage infiltration and upregulation of heat shock proteins, but no apparent muscle damage

Author

Nielsen, Jakob L, Aagaard, Per, Prokhorova, Tatyana A, Nygaard, Tobias, Bech, Rune D, Suetta, Charlotte, Frandsen, Ulrik, Nielsen, Jakob L, Aagaard, Per, Prokhorova, Tatyana A, Nygaard, Tobias, Bech, Rune D, Suetta, Charlotte, and Frandsen, Ulrik

Abstract

KEY POINTS: Muscular contractions performed using a combination of low external loads and partial restriction of limb blood flow appear to induce substantial gains in muscle strength and muscle mass. This exercise regime may initially induce muscular stress and damage; however, the effects of a period of blood flow restricted training on these parameters remain largely unknown. The present study shows that short-term, high-frequency, low-load muscle training performed with partial blood flow restriction does not induce significant muscular damage. However, signs of myocellular stress and inflammation that were observed in the early phase of training and after the training intervention, respectively, may be facilitating the previously reported gains in myogenic satellite cell content and muscle hypertrophy. The present results improve our current knowledge about the physiological effects of low-load muscular contractions performed under blood flow restriction and may provide important information of relevance for future therapeutic treatment of muscular atrophy.ABSTRACT: Previous studies indicate that low-load muscle contractions performed under local blood flow restriction (BFR) may initially induce muscle damage and stress. However, whether these factors are evoked with longitudinal BFR training remains unexplored at the myocellular level. Two distinct study protocols were conducted, covering 3 weeks (3 wk) or one week (1 wk). Subjects performed BFR exercise (100 mmHg, 20% 1RM) to concentric failure (BFRE) (3 wk/1 wk), while controls performed work-matched (LLE) (3 wk) or high-load (HLE; 70% 1RM) (1 wk) free-flow exercise. Muscle biopsies (3 wk) were obtained at baseline (Pre), 8 days into the intervention (Mid8), and 3 and 10 days after training cessation (Post3, Post10) to examine macrophage (M1/M2) content as well as heat shock protein (HSP27/70) and tenascin-C expression. Blood samples (1 wk) were collected before and after (0.1-24 h) the first and la

Published

2017

8. Delayed Effect of Blood Flow-restricted Resistance Training on Rapid Force Capacity

Author

Nielsen, Jakob Lindberg, Frandsen, Ulrik, Prokhorova, Tatyana, Bech, Rune Dueholm, Nygaard, Tobias, Suetta, Charlotte, Aagaard, Per, Nielsen, Jakob Lindberg, Frandsen, Ulrik, Prokhorova, Tatyana, Bech, Rune Dueholm, Nygaard, Tobias, Suetta, Charlotte, and Aagaard, Per

Abstract

PURPOSE: The aim of the present study was to investigate the effect and time course of high-frequent low-load blood flow-restricted (BFR) resistance training on rapid force capacity (i.e., rate of torque development [RTD]).MATERIALS AND METHODS: Ten male subjects (22.8 ± 2.3 yr) performed four sets of knee extensor exercise (20% one-repetition maximum) to concentric failure during concurrent BFR of the thigh (100 mm Hg), and eight work-matched controls (21.9 ± 3.0 yr) trained without BFR (CON). Twenty-three training sessions were performed within 19 d. Maximal slow and fast knee joint velocity muscle strength and rapid force capacity (e.g., RTD) and evoked twitch contractile parameters were assessed before (Pre) and 5 and 12 d after (Post5 and Post12) training. Muscle biopsies were obtained Pre, after 8 d (Mid8), and 3 and 10 d after (Post3 and Post10) training to examine changes in myofiber area and expression of myocellular proteins known to be modified by cellular stress (CaMKII, annexin A6, SNO-CYS).RESULTS: RTD remained unchanged after BFR training at Post5, while increasing 15%-20% Post12 (P < 0.01). Evoked muscle twitch parameters showed a general decline Post5 (P < 0.01) while returning to baseline levels at Post12. All contractile parameters essentially remained unchanged in CON. Elevated CaMKII was observed with BFR training at Post3 (57%) and Post10 (71%) (P < 0.05), whereas SNO-CYS increased in CON at Mid8 (P < 0.05).CONCLUSION: This study is the first to show that low-load resistance exercise performed with BFR leads to marked increases in rapid force capacity (RTD). However, a general delayed adaptive response was observed for voluntary contractile parameters (including RTD) in parallel with a decline and subsequent recovery in evoked contractile properties, suggesting the delayed gain in rapid force capacity mainly have a peripheral origin.

Published

2017

9. Quantum oscillations in coupled orbits networks of (BEDT-TTF) salts with tris(oxalato)metallate anions

Author

Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), Russian Foundation for Basic Research, Russian Academy of Sciences, Laukhin, Vladimir, Audouard, Alain, Fortin, PIerre-Yves, Vignolles, David, Prokhorova, Tatyana G., Yagubskii, Eduard B., Canadell, Enric, Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), Russian Foundation for Basic Research, Russian Academy of Sciences, Laukhin, Vladimir, Audouard, Alain, Fortin, PIerre-Yves, Vignolles, David, Prokhorova, Tatyana G., Yagubskii, Eduard B., and Canadell, Enric

Abstract

Band structure calculations relevant to bis-ethylenedithio-tetrathiafulvalene-based charge transfer salts containing tris(oxalato)metallate anions, with generic formula (BEDT-TTF)4A[M(C2O4)3]·Solv, where A is a monovalent anion, M is a trivalent cation and Solv is a solvent, suggest that their Fermi surface is liable to achieve networks of compensated orbits coupled by magnetic breakdown. Even though this picture accounts for quantum oscillations spectra of a number of these compounds, puzzling results can be noticed in several cases, pointing to the possibility of Fermi surface reconstruction at low temperature.

Published

2017

10. System-wide temporal characterization of the proteome and phosphoproteome of human embryonic stem cell differentiation

Author

Rigbolt, Kristoffer T.G., Prokhorova, Tatyana, Akimov, Vyacheslav, Henningsen, Jeanette, Johansen, Pia Thermann, Kratchmarova, Irina, Kassem, Moustapha Saad El-Deen, Mann, Matthias, Olsen, Jesper V, Blagoev, Blagoy, Rigbolt, Kristoffer T.G., Prokhorova, Tatyana, Akimov, Vyacheslav, Henningsen, Jeanette, Johansen, Pia Thermann, Kratchmarova, Irina, Kassem, Moustapha Saad El-Deen, Mann, Matthias, Olsen, Jesper V, and Blagoev, Blagoy

Abstract

To elucidate cellular events underlying the pluripotency of human embryonic stem cells (hESCs), we performed parallel quantitative proteomic and phosphoproteomic analyses of hESCs during differentiation initiated by a diacylglycerol analog or transfer to media that had not been conditioned by feeder cells. We profiled 6521 proteins and 23,522 phosphorylation sites, of which almost 50% displayed dynamic changes in phosphorylation status during 24 hours of differentiation. These data are a resource for studies of the events associated with the maintenance of hESC pluripotency and those accompanying their differentiation. From these data, we identified a core hESC phosphoproteome of sites with similar robust changes in response to the two distinct treatments. These sites exhibited distinct dynamic phosphorylation patterns, which were linked to known or predicted kinases on the basis of the matching sequence motif. In addition to identifying previously unknown phosphorylation sites on factors associated with differentiation, such as kinases and transcription factors, we observed dynamic phosphorylation of DNA methyltransferases (DNMTs). We found a specific interaction of DNMTs during early differentiation with the PAF1 (polymerase-associated factor 1) transcriptional elongation complex, which binds to promoters of the pluripotency and known DNMT target genes encoding OCT4 and NANOG, thereby providing a possible molecular link for the silencing of these genes during differentiation.

Published

2011

11. System-wide temporal characterization of the proteome and phosphoproteome of human embryonic stem cell differentiation

Author

Rigbolt, Kristoffer T.G., Prokhorova, Tatyana, Akimov, Vyacheslav, Henningsen, Jeanette, Johansen, Pia Thermann, Kratchmarova, Irina, Kassem, Moustapha Saad El-Deen, Mann, Matthias, Olsen, Jesper V, Blagoev, Blagoy, Rigbolt, Kristoffer T.G., Prokhorova, Tatyana, Akimov, Vyacheslav, Henningsen, Jeanette, Johansen, Pia Thermann, Kratchmarova, Irina, Kassem, Moustapha Saad El-Deen, Mann, Matthias, Olsen, Jesper V, and Blagoev, Blagoy

Abstract

To elucidate cellular events underlying the pluripotency of human embryonic stem cells (hESCs), we performed parallel quantitative proteomic and phosphoproteomic analyses of hESCs during differentiation initiated by a diacylglycerol analog or transfer to media that had not been conditioned by feeder cells. We profiled 6521 proteins and 23,522 phosphorylation sites, of which almost 50% displayed dynamic changes in phosphorylation status during 24 hours of differentiation. These data are a resource for studies of the events associated with the maintenance of hESC pluripotency and those accompanying their differentiation. From these data, we identified a core hESC phosphoproteome of sites with similar robust changes in response to the two distinct treatments. These sites exhibited distinct dynamic phosphorylation patterns, which were linked to known or predicted kinases on the basis of the matching sequence motif. In addition to identifying previously unknown phosphorylation sites on factors associated with differentiation, such as kinases and transcription factors, we observed dynamic phosphorylation of DNA methyltransferases (DNMTs). We found a specific interaction of DNMTs during early differentiation with the PAF1 (polymerase-associated factor 1) transcriptional elongation complex, which binds to promoters of the pluripotency and known DNMT target genes encoding OCT4 and NANOG, thereby providing a possible molecular link for the silencing of these genes during differentiation.

Published

2011

12. System-wide temporal characterization of the proteome and phosphoproteome of human embryonic stem cell differentiation

Author

Rigbolt, Kristoffer T.G., Prokhorova, Tatyana, Akimov, Vyacheslav, Henningsen, Jeanette, Johansen, Pia Thermann, Kratchmarova, Irina, Kassem, Moustapha Saad El-Deen, Mann, Matthias, Olsen, Jesper V, Blagoev, Blagoy, Rigbolt, Kristoffer T.G., Prokhorova, Tatyana, Akimov, Vyacheslav, Henningsen, Jeanette, Johansen, Pia Thermann, Kratchmarova, Irina, Kassem, Moustapha Saad El-Deen, Mann, Matthias, Olsen, Jesper V, and Blagoev, Blagoy

Abstract

To elucidate cellular events underlying the pluripotency of human embryonic stem cells (hESCs), we performed parallel quantitative proteomic and phosphoproteomic analyses of hESCs during differentiation initiated by a diacylglycerol analog or transfer to media that had not been conditioned by feeder cells. We profiled 6521 proteins and 23,522 phosphorylation sites, of which almost 50% displayed dynamic changes in phosphorylation status during 24 hours of differentiation. These data are a resource for studies of the events associated with the maintenance of hESC pluripotency and those accompanying their differentiation. From these data, we identified a core hESC phosphoproteome of sites with similar robust changes in response to the two distinct treatments. These sites exhibited distinct dynamic phosphorylation patterns, which were linked to known or predicted kinases on the basis of the matching sequence motif. In addition to identifying previously unknown phosphorylation sites on factors associated with differentiation, such as kinases and transcription factors, we observed dynamic phosphorylation of DNA methyltransferases (DNMTs). We found a specific interaction of DNMTs during early differentiation with the PAF1 (polymerase-associated factor 1) transcriptional elongation complex, which binds to promoters of the pluripotency and known DNMT target genes encoding OCT4 and NANOG, thereby providing a possible molecular link for the silencing of these genes during differentiation.

Published

2011