Improvement of the energy metabolism of recombinant CHO cells by cell sorting for reduced mitochondrial membrane potential

One of the major problems in process performance of mammalian cell cultures is the production of lactic acid. Cell specific glucose uptake rates usually correlate to glucose concentration and approximately 80% of the metabolised glucose is converted into lactic acid. As the mitochondrial membrane po...

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Veröffentlicht in:	Journal of biotechnology 2007-05, Vol.129 (4), p.651-657
Hauptverfasser:	Hinterkörner, Georg, Brugger, Gudrun, Müller, Dethardt, Hesse, Friedemann, Kunert, Renate, Katinger, Hermann, Borth, Nicole
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological and medical sciences Biotechnology Cell Separation - methods Cell sorting CHO Cells Clone Cells Cricetinae Cricetulus Culture Media Energy Metabolism Flow Cytometry Fundamental and applied biological sciences. Psychology Membrane Potentials - physiology Mitochondrial membrane potential Mitochondrial Membranes - physiology Recombinant Chinese hamster ovary cells Specific lactate production rate
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creator	Hinterkörner, Georg Brugger, Gudrun Müller, Dethardt Hesse, Friedemann Kunert, Renate Katinger, Hermann Borth, Nicole
description	One of the major problems in process performance of mammalian cell cultures is the production of lactic acid. Cell specific glucose uptake rates usually correlate to glucose concentration and approximately 80% of the metabolised glucose is converted into lactic acid. As the mitochondrial membrane potential was shown to correlate to cell specific glucose uptake rates, we used Rhodamine 123, a lipophilic cationic dye for cell sorting to improve the energy metabolism of existing production cell lines. Two recombinant CHO cell lines with known differences in lactic acid production rate were used to evaluate Rhodamine 123 staining as a descriptor for glucose uptake rates and to determine whether it is possible to isolate subclones with altered metabolic properties. Such subclones would exhibit an improved process performance, and in addition could be used as models for genomic and metabolic studies. From the cell line with high lactate production, a subclone sorted for reduced mitochondrial membrane potential was found to have a lower specific lactate formation rate compared to the parental cell line in batch cultures. In addition, the glucose consumption rate was also reduced, while both the growth rate and the final cell concentration were increased. A subclone sorted for high mitochondrial membrane potential, on the other hand, had a higher glucose consumption rate, a higher lactate production rate and reduced growth. The potential of using flow cytometric cell sorting methods based on physiological activity for cell line optimisation is discussed.
doi_str_mv	10.1016/j.jbiotec.2007.02.002
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Cell specific glucose uptake rates usually correlate to glucose concentration and approximately 80% of the metabolised glucose is converted into lactic acid. As the mitochondrial membrane potential was shown to correlate to cell specific glucose uptake rates, we used Rhodamine 123, a lipophilic cationic dye for cell sorting to improve the energy metabolism of existing production cell lines. Two recombinant CHO cell lines with known differences in lactic acid production rate were used to evaluate Rhodamine 123 staining as a descriptor for glucose uptake rates and to determine whether it is possible to isolate subclones with altered metabolic properties. Such subclones would exhibit an improved process performance, and in addition could be used as models for genomic and metabolic studies. From the cell line with high lactate production, a subclone sorted for reduced mitochondrial membrane potential was found to have a lower specific lactate formation rate compared to the parental cell line in batch cultures. In addition, the glucose consumption rate was also reduced, while both the growth rate and the final cell concentration were increased. A subclone sorted for high mitochondrial membrane potential, on the other hand, had a higher glucose consumption rate, a higher lactate production rate and reduced growth. 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Cell specific glucose uptake rates usually correlate to glucose concentration and approximately 80% of the metabolised glucose is converted into lactic acid. As the mitochondrial membrane potential was shown to correlate to cell specific glucose uptake rates, we used Rhodamine 123, a lipophilic cationic dye for cell sorting to improve the energy metabolism of existing production cell lines. Two recombinant CHO cell lines with known differences in lactic acid production rate were used to evaluate Rhodamine 123 staining as a descriptor for glucose uptake rates and to determine whether it is possible to isolate subclones with altered metabolic properties. Such subclones would exhibit an improved process performance, and in addition could be used as models for genomic and metabolic studies. From the cell line with high lactate production, a subclone sorted for reduced mitochondrial membrane potential was found to have a lower specific lactate formation rate compared to the parental cell line in batch cultures. In addition, the glucose consumption rate was also reduced, while both the growth rate and the final cell concentration were increased. A subclone sorted for high mitochondrial membrane potential, on the other hand, had a higher glucose consumption rate, a higher lactate production rate and reduced growth. The potential of using flow cytometric cell sorting methods based on physiological activity for cell line optimisation is discussed.</description><subject>Animals</subject><subject>Biological and medical sciences</subject><subject>Biotechnology</subject><subject>Cell Separation - methods</subject><subject>Cell sorting</subject><subject>CHO Cells</subject><subject>Clone Cells</subject><subject>Cricetinae</subject><subject>Cricetulus</subject><subject>Culture Media</subject><subject>Energy Metabolism</subject><subject>Flow Cytometry</subject><subject>Fundamental and applied biological sciences. 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subjects	Animals Biological and medical sciences Biotechnology Cell Separation - methods Cell sorting CHO Cells Clone Cells Cricetinae Cricetulus Culture Media Energy Metabolism Flow Cytometry Fundamental and applied biological sciences. Psychology Membrane Potentials - physiology Mitochondrial membrane potential Mitochondrial Membranes - physiology Recombinant Chinese hamster ovary cells Specific lactate production rate
title	Improvement of the energy metabolism of recombinant CHO cells by cell sorting for reduced mitochondrial membrane potential
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