Schneider 2007 Cell Biol Int: Difference between revisions
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{{Publication | {{Publication | ||
|title=Schneider N, Mouithys-Mickalad A, Lejeune JP, Duyckaerts C, Sluse F, Deby-Dupont G, Serteyn D (2007) Oxygen consumption of equine articular chondrocytes: Influence of applied oxygen tension and glucose concentration during culture. Cell. Biol. Int. 31: 878-886. | |title=Schneider N, Mouithys-Mickalad A, Lejeune JP, Duyckaerts C, Sluse F, Deby-Dupont G, Serteyn D (2007) Oxygen consumption of equine articular chondrocytes: Influence of applied oxygen tension and glucose concentration during culture. Cell. Biol. Int. 31: 878-886. | ||
|authors=Schneider N, Mouithys-Mickalad A, Lejeune JP, Duyckaerts C, Sluse F, Deby-Dupont G, Serteyn D ย | |authors=Schneider N, Mouithys-Mickalad A, Lejeune JP, Duyckaerts C, Sluse F, Deby-Dupont G, Serteyn D | ||
|year=2007 | |year=2007 | ||
|journal=Cell Biology International | |journal=Cell Biology International | ||
|abstract=We investigated the oxygen (O(2)) uptake of equine articular chondrocytes to assess their reactions to anoxia/re-oxygenation. They were cultured under 5% or 21% gas phase O(2) and at glucose concentrations of 0, 1.0 or 4.5g/L in the culture medium (n=3). Afterwards, the O(2) consumption rate of the chondrocytes was monitored (oxymetry) before and after an anoxia period of 25min. The glucose consumption and lactate release were measured at the end of the re-oxygenation period. The chondrocytes showed a minimal O(2) consumption rate, which was hardly changed by anoxia. Independently from the O(2) tension, glucose uptake by the cells was about 30% of the available culture medium glucose, thus higher for cells at 4.5g/L glucose (n=3). Lactate release was also independent from O(2) tension, but lower for cells at 4.5g/L glucose (n=3). Our observations indicated that O(2) consumption by equine chondrocytes was very low despite a functional mitochondrial respiratory chain, and nearly insensitive to anoxia/re-oxygenation. But the chondrocytes metabolism was modified by an excess of O(2) and glucose. | |||
|info=[http://www.ncbi.nlm.nih.gov/pubmed/17442596 PMID: 17442596] | |info=[http://www.ncbi.nlm.nih.gov/pubmed/17442596 PMID: 17442596] | ||
}} | }} |
Revision as of 13:53, 24 September 2010
Schneider N, Mouithys-Mickalad A, Lejeune JP, Duyckaerts C, Sluse F, Deby-Dupont G, Serteyn D (2007) Oxygen consumption of equine articular chondrocytes: Influence of applied oxygen tension and glucose concentration during culture. Cell. Biol. Int. 31: 878-886. |
Schneider N, Mouithys-Mickalad A, Lejeune JP, Duyckaerts C, Sluse F, Deby-Dupont G, Serteyn D (2007) Cell Biology International
Abstract: We investigated the oxygen (O(2)) uptake of equine articular chondrocytes to assess their reactions to anoxia/re-oxygenation. They were cultured under 5% or 21% gas phase O(2) and at glucose concentrations of 0, 1.0 or 4.5g/L in the culture medium (n=3). Afterwards, the O(2) consumption rate of the chondrocytes was monitored (oxymetry) before and after an anoxia period of 25min. The glucose consumption and lactate release were measured at the end of the re-oxygenation period. The chondrocytes showed a minimal O(2) consumption rate, which was hardly changed by anoxia. Independently from the O(2) tension, glucose uptake by the cells was about 30% of the available culture medium glucose, thus higher for cells at 4.5g/L glucose (n=3). Lactate release was also independent from O(2) tension, but lower for cells at 4.5g/L glucose (n=3). Our observations indicated that O(2) consumption by equine chondrocytes was very low despite a functional mitochondrial respiratory chain, and nearly insensitive to anoxia/re-oxygenation. But the chondrocytes metabolism was modified by an excess of O(2) and glucose.
Labels:
Regulation: Respiration; OXPHOS; ETS Capacity"Respiration; OXPHOS; ETS Capacity" is not in the list (Aerobic glycolysis, ADP, ATP, ATP production, AMP, Calcium, Coupling efficiency;uncoupling, Cyt c, Flux control, Inhibitor, ...) of allowed values for the "Respiration and regulation" property.
HRR: Oxygraph-2k