Amino acids in the cultivation of mammalian cells

被引:80
作者
Salazar, Andrew [1 ,2 ]
Keusgen, Michael [1 ]
von Hagen, Joerg [2 ]
机构
[1] Univ Marburg, Inst Pharmaceut Chem, D-35032 Marburg, Germany
[2] Merck Lifesci, Biopharm Mat & Technol R&D, D-64293 Darmstadt, Germany
关键词
Amino acid; Bioprocess; Biotechnology; Cell culture media; Media formulation; CYSTINE/GLUTAMATE EXCHANGE TRANSPORTER; CHO-CELLS; ASPARAGINE DEAMIDATION; BINDING-AFFINITY; FUSION PROTEIN; METAL CATIONS; CULTURE-MEDIA; BOVINE SERUM; L-VALINE; WATER;
D O I
10.1007/s00726-016-2181-8
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Amino acids are crucial for the cultivation of mammalian cells. This importance of amino acids was realized soon after the development of the first cell lines, and a solution of a mixture of amino acids has been supplied to cultured cells ever since. The importance of amino acids is further pronounced in chemically defined mammalian cell culture media, making the consideration of their biological and chemical properties necessary. Amino acids concentrations have been traditionally adjusted to their cellular consumption rates. However, since changes in the metabolic equilibrium of amino acids can be caused by changes in extracellular concentrations, metabolomics in conjunction with flux balance analysis is being used in the development of culture media. The study of amino acid transporters is also gaining importance since they control the intracellular concentrations of these molecules and are influenced by conditions in cell culture media. A better understanding of the solubility, stability, dissolution kinetics, and interactions of these molecules is needed for an exploitation of these properties in the development of dry powdered chemically defined media for mammalian cells. Due to the complexity of these mixtures however, this has proven to be challenging. Studying amino acids in mammalian cell culture media will help provide a better understanding of how mammalian cells in culture interact with their environment. It would also provide insight into the chemical behavior of these molecules in solutions of complex mixtures, which is important in the understanding of the contribution of individual amino acids to protein structure.
引用
收藏
页码:1161 / 1171
页数:11
相关论文
共 86 条
[1]   Strategies for fed-batch cultivation of t-PA producing CHO cells:: substitution of glucose and glutamine and rational design of culture medium [J].
Altamirano, C ;
Paredes, C ;
Illanes, A ;
Cairó, JJ ;
Gòdia, F .
JOURNAL OF BIOTECHNOLOGY, 2004, 110 (02) :171-179
[2]   Serine and glycine metabolism in cancer [J].
Amelio, Ivano ;
Cutruzzola, Francesca ;
Antonov, Alexey ;
Agostini, Massimiliano ;
Melino, Gerry .
TRENDS IN BIOCHEMICAL SCIENCES, 2014, 39 (04) :191-198
[3]   Metal Cation Dependence of Interactions with Amino Acids: Bond Energies of Cs+ to Gly, Pro, Ser, Thr, and Cys [J].
Armentrout, P. B. ;
Chen, Yu ;
Rodgers, M. T. .
JOURNAL OF PHYSICAL CHEMISTRY A, 2012, 116 (16) :3989-3999
[4]   The Universal Protein Resource (UniProt) [J].
Bairoch, Amos ;
Bougueleret, Lydie ;
Altairac, Severine ;
Amendolia, Valeria ;
Auchincloss, Andrea ;
Puy, Ghislaine Argoud ;
Axelsen, Kristian ;
Baratin, Delphine ;
Blatter, Marie-Claude ;
Boeckmann, Brigitte ;
Bollondi, Laurent ;
Boutet, Emmanuel ;
Quintaje, Silvia Braconi ;
Breuza, Lionel ;
Bridge, Alan ;
Saux, Virginie Bulliard-Le ;
decastro, Edouard ;
Ciampina, Luciane ;
Coral, Danielle ;
Coudert, Elisabeth ;
Cusin, Isabelle ;
David, Fabrice ;
Delbard, Gwennaelle ;
Dornevil, Dolnide ;
Duek-Roggli, Paula ;
Duvaud, Severine ;
Estreicher, Anne ;
Famiglietti, Livia ;
Farriol-Mathis, Nathalie ;
Ferro, Serenella ;
Feuermann, Marc ;
Gasteiger, Elisabeth ;
Gateau, Alain ;
Gehant, Sebastian ;
Gerritsen, Vivienne ;
Gos, Arnaud ;
Gruaz-Gumowski, Nadine ;
Hinz, Ursula ;
Hulo, Chantal ;
Hulo, Nicolas ;
Innocenti, Alessandro ;
James, Janet ;
Jain, Eric ;
Jimenez, Silvia ;
Jungo, Florence ;
Junker, Vivien ;
Keller, Guillaume ;
Lachaize, Corinne ;
Lane-Guermonprez, Lydie ;
Langendijk-Genevaux, Petra .
NUCLEIC ACIDS RESEARCH, 2008, 36 :D190-D195
[5]   Redox outside the Box: Linking Extracellular Redox Remodeling with Intracellular Redox Metabolism [J].
Banerjee, Ruma .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2012, 287 (07) :4397-4402
[6]   The cystine/cysteine cycle:: a redox cycle regulating susceptibility versus resistance to cell death [J].
Banjac, A. ;
Perisic, T. ;
Sato, H. ;
Seiler, A. ;
Bannai, S. ;
Weiss, N. ;
Koelle, P. ;
Tschoep, K. ;
Issels, R. D. ;
Daniel, P. T. ;
Conrad, M. ;
Bornkamm, G. W. .
ONCOGENE, 2008, 27 (11) :1618-1628
[7]   KINETICS AND MECHANISM OF THE REVERSIBLE ISOMERIZATION OF ASPARTIC-ACID RESIDUES IN TETRAPEPTIDES [J].
CAPASSO, S ;
KIRBY, AJ ;
SALVADORI, S ;
SICA, F ;
ZAGARI, A .
JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2, 1995, (03) :437-442
[8]   Metabolic Signatures of GS-CHO Cell Clones Associated With Butyrate Treatment and Culture Phase Transition [J].
Carinhas, Nuno ;
Duarte, Tiago M. ;
Barreiro, Laura C. ;
Carrondo, Manuel J. T. ;
Alves, Paula M. ;
Teixeira, Ana P. .
BIOTECHNOLOGY AND BIOENGINEERING, 2013, 110 (12) :3244-3257
[9]   Amino acid consumption in naive and recombinant CHO cell cultures: producers of a monoclonal antibody [J].
Carrillo-Cocom, L. M. ;
Genel-Rey, T. ;
Araiz-Hernandez, D. ;
Lopez-Pacheco, F. ;
Lopez-Meza, J. ;
Rocha-Pizana, M. R. ;
Ramirez-Medrano, A. ;
Alvarez, M. M. .
CYTOTECHNOLOGY, 2015, 67 (05) :809-820
[10]   Solubilities of L-cystine, L-tyrosine, L-leucine, and glycine in their water solutions [J].
Carta, R .
JOURNAL OF CHEMICAL AND ENGINEERING DATA, 1999, 44 (03) :563-567