Craig Zupke scite author profile

The modeling of isotope distributions can be used to evaluate intracellular fluxes and to investigate cellular metabolism. A method of modeling isotope distributions in biochemical networks that addresses some of the shortcomings of conventional methods is presented. Matrix equations representing steady state isotope balances are formulated for each metabolite and solved iteratively via computer. The key feature of this method is the use of atom mapping matrices, which decouple the generation of the steady state equations from the details of the transfer of carbon atoms from reactants to products. The use of atom mapping matrices results in a clear, intuitive description of metabolic networks that is easy to develop, check, and modify. A network representing energy metabolism in a hybridoma cell line was developed and presented as an example of the method. A program that uses the atom mapping matrix method to calculate the isotope distribution in the network as a function of the intracellular fluxes was written. Calculations showed that a single nuclear magnetic resonance (NMR) experiment with 13C‐labeled glucose should be able to uniquely determine two important TCA cycle flux ratios. These results demonstrate how in vitro NMR can be used to study cellular metabolism or to validate the flux estimates obtained from other methods.

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Use of a small molecule cell cycle inhibitor to control cell growth and improve specific productivity and product quality of recombinant proteins in CHO cell cultures

Treiber

McCarter

et al. 2014

Biotech & Bioengineering

100

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The continued need to improve therapeutic recombinant protein productivity has led to ongoing assessment of appropriate strategies in the biopharmaceutical industry to establish robust processes with optimized critical variables, that is, viable cell density (VCD) and specific productivity (product per cell, qP). Even though high VCD is a positive factor for titer, uncontrolled proliferation beyond a certain cell mass is also undesirable. To enable efficient process development to achieve consistent and predictable growth arrest while maintaining VCD, as well as improving qP, without negative impacts on product quality from clone to clone, we identified an approach that directly targets the cell cycle G1-checkpoint by selectively inhibiting the function of cyclin dependent kinases (CDK) 4/6 with a small molecule compound. Results from studies on multiple recombinant Chinese hamster ovary (CHO) cell lines demonstrate that the selective inhibitor can mediate a complete and sustained G0/G1 arrest without impacting G2/M phase. Cell proliferation is consistently and rapidly controlled in all recombinant cell lines at one concentration of this inhibitor throughout the production processes with specific productivities increased up to 110 pg/cell/day. Additionally, the product quality attributes of the mAb, with regard to high molecular weight (HMW) and glycan profile, are not negatively impacted. In fact, high mannose is decreased after treatment, which is in contrast to other established growth control methods such as reducing culture temperature. Microarray analysis showed major differences in expression of regulatory genes of the glycosylation and cell cycle signaling pathways between these different growth control methods. Overall, our observations showed that cell cycle arrest by directly targeting CDK4/6 using selective inhibitor compound can be utilized consistently and rapidly to optimize process parameters, such as cell growth, qP, and glycosylation profile in recombinant antibody production cultures.

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Intracellular flux analysis in hybridomas using mass balances and in vitro ¹³C nmr

Zupke

Stephanopoulos

1995

Biotech & Bioengineering

167

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Intracellular fluxes are important in defining cellular physiology and its changes in response to environmental variations. Stoichiometric balances combined with extra cellular metabolite measurements were applied to the estimation of intracellular fluxes and the study of energy metabolism in the hybridoma cell line ATCC CRL 1606. Redundant measurements allowed the evaluation of the consistency of the stoichiometry, measurements, and pseudo-steady-state assumption leading to refinement of the assumed biochemistry and identification of measurement errors. To validate the flux estimates, two batch experiments were performed with glucose labeled in the 1 position with (13)C. The distribution of (13)C in secreted lactate was measured via nuclear magnetic resonance spectroscopy (NMR) and compared to that predicted from the estimated intracellular fluxes. There was good agreement between the measured and estimated isotope distributions, demonstrating the validity of the flux estimates obtained from stoichiometric balances. (c) 1995 John Wiley & Sons, Inc.

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Effect of burn injury on glucose and nitrogen metabolism in the liver: Preliminary studies in a perfused liver system

Yamaguchi

Zupke

et al. 1997

Surgery

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Craig Zupke

Modeling of Isotope Distributions and Intracellular Fluxes in Metabolic Networks Using Atom Mapping Matrices

Use of a small molecule cell cycle inhibitor to control cell growth and improve specific productivity and product quality of recombinant proteins in CHO cell cultures

Intracellular flux analysis in hybridomas using mass balances and in vitro ¹³C nmr

Effect of burn injury on glucose and nitrogen metabolism in the liver: Preliminary studies in a perfused liver system

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Craig Zupke

Modeling of Isotope Distributions and Intracellular Fluxes in Metabolic Networks Using Atom Mapping Matrices

Use of a small molecule cell cycle inhibitor to control cell growth and improve specific productivity and product quality of recombinant proteins in CHO cell cultures

Intracellular flux analysis in hybridomas using mass balances and in vitro 13C nmr

Effect of burn injury on glucose and nitrogen metabolism in the liver: Preliminary studies in a perfused liver system

Contact Info

Product

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Intracellular flux analysis in hybridomas using mass balances and in vitro ¹³C nmr