Paeaesuke 2015 Oxid Med Cell Longev: Difference between revisions
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{{Publication | {{Publication | ||
|title=Pääsuke R, Eimre M, Piirsoo A, Peet N, Laada L, Kadaja L, Roosimaa M, Pääsuke M, Märtson A, Seppet E, Paju K (2015) Proliferation of human primary myoblasts is associated with altered energy metabolism in dependence of ageing ''in vivo'' and ''in vitro''. Oxid Med Cell Longev 8296150:10p. | |title=Pääsuke R, Eimre M, Piirsoo A, Peet N, Laada L, Kadaja L, Roosimaa M, Pääsuke M, Märtson A, Seppet E, Paju K (2015) Proliferation of human primary myoblasts is associated with altered energy metabolism in dependence of ageing ''in vivo'' and ''in vitro''. Oxid Med Cell Longev 8296150:10p. | ||
|info=[http://www.hindawi.com/journals/omcl/2016/8296150/] | |info=[http://www.hindawi.com/journals/omcl/2016/8296150/] | ||
|authors=Paeaesuke R, Eimre M, Piirsoo A, Peet N, Laada L, Kadaja L, Roosimaa M, Paeaesuke M, Maertson A, Seppet E, Paju K | |authors=Paeaesuke R, Eimre M, Piirsoo A, Peet N, Laada L, Kadaja L, Roosimaa M, Paeaesuke M, Maertson A, Seppet E, Paju K | ||
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Proliferation of myoblasts ''in vitro'' is associated with down-regulation of OXPHOS and energy storage and transfer systems. Ageing ''in vivo'' exerts an impact on satellite cells which results in altered metabolic profile in favour of the prevalence of glycolytic pathways over mitochondrial OXPHOS of myoblasts. | Proliferation of myoblasts ''in vitro'' is associated with down-regulation of OXPHOS and energy storage and transfer systems. Ageing ''in vivo'' exerts an impact on satellite cells which results in altered metabolic profile in favour of the prevalence of glycolytic pathways over mitochondrial OXPHOS of myoblasts. | ||
|keywords=Human primary myoblasts, Ageing, Mitochondria, Adenylate kinase, Creatine kinase | |keywords=Human primary myoblasts, Ageing, Mitochondria, Adenylate kinase, Creatine kinase | ||
|mipnetlab=EE Tartu Paju K | |mipnetlab=EE Tartu Paju K, EE Tartu Seppet EK | ||
}} | }} | ||
{{Labeling | {{Labeling | ||
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|preparations=Permeabilized cells | |preparations=Permeabilized cells | ||
|diseases=Aging;senescence | |diseases=Aging;senescence | ||
|couplingstates=OXPHOS | |couplingstates=OXPHOS | ||
| | |pathways=N, S, CIV, ROX | ||
|instruments=Oxygraph-2k | |instruments=Oxygraph-2k | ||
|additional= | |additional=2016-01 | ||
}} | }} |
Latest revision as of 09:40, 8 November 2016
Pääsuke R, Eimre M, Piirsoo A, Peet N, Laada L, Kadaja L, Roosimaa M, Pääsuke M, Märtson A, Seppet E, Paju K (2015) Proliferation of human primary myoblasts is associated with altered energy metabolism in dependence of ageing in vivo and in vitro. Oxid Med Cell Longev 8296150:10p. |
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Paeaesuke R, Eimre M, Piirsoo A, Peet N, Laada L, Kadaja L, Roosimaa M, Paeaesuke M, Maertson A, Seppet E, Paju K (2015) Oxid Med Cell Longev
Abstract: Ageing is associated with suppressed regenerative potential of muscle precursor cells due to decrease of satellite cells and suppressive intramuscular milieu on their activation, associated with ageing-related low-grade inflammation. The aim of the study was to characterize the function of oxidative phosphorylation (OXPHOS), glycolysis, adenylate kinase (AK), and creatine kinase (CK)-mediated systems in young and older individuals.
Myoblasts were cultivated from biopsies taken by transcutaneous conchotomy from vastus lateralis muscle in young (20-29 yrs, n=7) and older (70-79 yrs, n=7) subjects. Energy metabolism was assessed in passages 2 to 6 by oxygraphy and enzyme analysis.
In myoblasts of young and older subjects the rate of OXPHOS decreased during proliferation from passage 2 to 6. The total activities of CK and AK decreased. Myoblasts of passage 2 cultivated from young muscle showed higher rate of OXPHOS and activities of CK and AK compared to myoblasts from older subjects while hexokinase and pyruvate kinase were not affected by ageing.
Proliferation of myoblasts in vitro is associated with down-regulation of OXPHOS and energy storage and transfer systems. Ageing in vivo exerts an impact on satellite cells which results in altered metabolic profile in favour of the prevalence of glycolytic pathways over mitochondrial OXPHOS of myoblasts. • Keywords: Human primary myoblasts, Ageing, Mitochondria, Adenylate kinase, Creatine kinase
• O2k-Network Lab: EE Tartu Paju K, EE Tartu Seppet EK
Labels: MiParea: Respiration, mtDNA;mt-genetics
Pathology: Aging;senescence
Organism: Human Tissue;cell: Skeletal muscle Preparation: Permeabilized cells
Coupling state: OXPHOS
Pathway: N, S, CIV, ROX
HRR: Oxygraph-2k
2016-01