Time-Resolved Monitoring of the Oxygen Transfer Rate of Chinese Hamster Ovary Cells Provides Insights Into Culture Behavior in Shake Flasks

Ihling, Nina; Munkler, Lara Pauline; Berg, Christoph; Reichenbächer, Britta; Wirth, Johannes; Lang, Dietmar; Wagner, Roland; Büchs, Jochen

doi:10.3389/fbioe.2021.725498

Cited by 9 publications

(35 citation statements)

References 66 publications

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“…As the change of the oxygen concentration in the liquid can be assumed to be very small compared to OUR and OTR, the measured OTR directly reflects the OUR. [29,30] The validity of this assumption for CHO cultures is discussed in detail elsewhere. [29] As demonstrated recently by monitoring the OTR for an industrial CHO cell line, measurement times can be adapted flexibly to allow for the detection of very small changes in the oxygen partial pressure.…”

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

“…[29,30] The validity of this assumption for CHO cultures is discussed in detail elsewhere. [29] As demonstrated recently by monitoring the OTR for an industrial CHO cell line, measurement times can be adapted flexibly to allow for the detection of very small changes in the oxygen partial pressure. [29] RAMOS also enables monitoring of the carbon dioxide transfer rate (CTR).…”

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

“…[29] As demonstrated recently by monitoring the OTR for an industrial CHO cell line, measurement times can be adapted flexibly to allow for the detection of very small changes in the oxygen partial pressure. [29] RAMOS also enables monitoring of the carbon dioxide transfer rate (CTR). [28] Here, the increase of the carbon dioxide partial pressure in the gas phase is used.…”

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

“…This is analogue to the assumption that the OTR will equal the OUR, if the oxygen concentration in the liquid does not change during measurement. [29] Only under this assumption, CER from cell respiration will equal the CTR. From the ratio of OTR and CTR the transfer quotient (TQ) can be calculated.…”

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

“…Adjustment of RAMOS for utilization of CHO cultures was described recently. [29] As the TOM device was integrated into an incubator where flasks were run in parallel for manual sampling, measurement values were affected by opening the incubator hood for sampling. As a result, OTR and CTR measurement values were correlated with sampling points and values that deviated more than 30% from the previous measurement value were considered outliers and excluded.…”

Section: Monitoring Of the Otr And Ctr Rate In Shake Flasksmentioning

confidence: 99%

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Non‐invasive and time‐resolved measurement of the respiration activity of Chinese hamster ovary cells enables prediction of key culture parameters in shake flasks

Ihling

Munkler

Paul

et al. 2022

Biotechnology Journal

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Background: Shake flasks are frequently used for mammalian cell suspension cultures. For process development and routine culture monitoring, information on culture behavior is needed early on. Main methods and major results:Here, cell-specific oxygen uptake rates (qO 2 ) of two CHO cell lines were determined from shake flask experiments by simultaneous measurement of oxygen transfer rates (OTR) and viable cell concentrations (VCC). For cell line one, qO 2 decreased from 2.38⋅10 −10 to 1.02⋅10 -10 mmol cell −1 h −1 during batch growth. For cell line two, qO 2 was constant (1.90⋅10 −10 mmol h −1 ). Determined qO 2 values were used to calculate the VCC from OTR data. Cumulated oxygen consumption and glucose consumption were correlated for both cell lines and enabled calculation of glucose concentrations from OTR data. IgG producing cell line one had an oxygen demand of ∼15 mmol oxygen g glucose −1 , cell line two consumed ∼5 mmol oxygen g glucose −1 .The established correlations for determination of VCC and glucose were successfully transferred to subsequent cultivations for both cell lines. Combined measurement of the OTR and the carbon dioxide transfer rate enabled quantitative determination of the lactate concentration (production and consumption) without sampling. Conclusions and implications:Taken together, non-invasive measurement of the respiration activity enabled time-resolved determination of key culture parameters for increased process understanding in shake flasks. K E Y W O R D Scarbon dioxide transfer rate, Chinese hamster ovary cells, oxygen transfer rate, respiratory quotient, shake flasks INTRODUCTIONChinese hamster ovary (CHO) cells are the most important mammalian cells used for the stable production of therapeutic proteins. [1] Even though traditionally applied for microbial cultivations, shake flasks areThis is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

Section: Monitoring Of Our and Cer In Shake Flasksmentioning

confidence: 99%

Section: Monitoring Of the Otr And Ctr Rate In Shake Flasksmentioning

confidence: 99%

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Non‐invasive and time‐resolved measurement of the respiration activity of Chinese hamster ovary cells enables prediction of key culture parameters in shake flasks

Ihling

Munkler

Paul

et al. 2022

Biotechnology Journal

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Scale‐down of CHO cell cultivation from shake flasks based on oxygen mass transfer allows application of parallelized, non‐invasive, and time‐resolved monitoring of the oxygen transfer rate in 48‐well microtiter plates

Ihling

Berg

Paul

et al. 2023

Biotechnology Journal

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Cultivating Chinese hamster ovary (CHO) cells in microtiter plates (MTPs) with time‐resolved monitoring of the oxygen transfer rate (OTR) is highly desirable to provide process insights at increased throughput. However, monitoring of the OTR in MTPs has not been demonstrated for CHO cells, yet. Hence, a CHO cultivation process was transferred from shake flasks to MTPs to enable monitoring of the OTR in each individual well of a 48‐well MTP. For this, the cultivation of an industrially relevant, antibody‐producing cell line was transferred from shake flask to MTP based on the volumetric oxygen mass transfer coefficient (kLa). Culture behavior was well comparable (deviation of the final IgG titer less than 10%). Monitoring of the OTR in 48‐well MTPs was then used to derive the cytotoxicity of dimethyl sulfoxide (DMSO) based on a dose–response curve in a single experiment using a second CHO cell line. Logistic fitting of the dose–response curve determined after 100 h was used to determine the DMSO concentration that resulted in a cytotoxicity of 50% (IC50). A DMSO concentration of 2.70% ± 0.25% was determined, which agrees with the IC50 previously determined in shake flasks (2.39% ± 0.1%). Non‐invasive, parallelized, and time‐resolved monitoring of the OTR of CHO cells in MTPs was demonstrated and offers excellent potential to speed up process development and assess cytotoxicity.

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Experimental k_S estimation: A comparison of methods for Corynebacterium glutamicum from lab to microfluidic scale

Steinhoff

Finger

Osthege

et al. 2023

Biotech & Bioengineering

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Knowledge about the specific affinity of whole cells toward a substrate, commonly referred to as kS, is a crucial parameter for characterizing growth within bioreactors. State‐of‐the‐art methodologies measure either uptake or consumption rates at different initial substrate concentrations. Alternatively, cell dry weight or respiratory data like online oxygen and carbon dioxide transfer rates can be used to estimate kS. In this work, a recently developed substrate‐limited microfluidic single‐cell cultivation (sl‐MSCC) method is applied for the estimation of kS values under defined environmental conditions. This method is benchmarked with two alternative microtiter plate methods, namely high‐frequency biomass measurement (HFB) and substrate‐limited respiratory activity monitoring (sl‐RA). As a model system, the substrate affinity kS of Corynebacterium glutamicum ATCC 13032 regarding glucose was investigated assuming a Monod‐type growth response. A kS of <70.7 mg/L (with 95% probability) with HFB, 8.55 ± 1.38 mg/L with sl‐RA, and 2.66 ± 0.99 mg/L with sl‐MSCC was obtained. Whereas HFB and sl‐RA are suitable for a fast initial kS estimation, sl‐MSCC allows an affinity estimation by determining tD at concentrations less or equal to the kS value. Thus, sl‐MSCC lays the foundation for strain‐specific kS estimations under defined environmental conditions with additional insights into cell‐to‐cell heterogeneity.

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Time-Resolved Monitoring of the Oxygen Transfer Rate of Chinese Hamster Ovary Cells Provides Insights Into Culture Behavior in Shake Flasks

Cited by 9 publications

References 66 publications

Non‐invasive and time‐resolved measurement of the respiration activity of Chinese hamster ovary cells enables prediction of key culture parameters in shake flasks

Non‐invasive and time‐resolved measurement of the respiration activity of Chinese hamster ovary cells enables prediction of key culture parameters in shake flasks

Scale‐down of CHO cell cultivation from shake flasks based on oxygen mass transfer allows application of parallelized, non‐invasive, and time‐resolved monitoring of the oxygen transfer rate in 48‐well microtiter plates

Experimental k_S estimation: A comparison of methods for Corynebacterium glutamicum from lab to microfluidic scale

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Time-Resolved Monitoring of the Oxygen Transfer Rate of Chinese Hamster Ovary Cells Provides Insights Into Culture Behavior in Shake Flasks

Cited by 9 publications

References 66 publications

Non‐invasive and time‐resolved measurement of the respiration activity of Chinese hamster ovary cells enables prediction of key culture parameters in shake flasks

Non‐invasive and time‐resolved measurement of the respiration activity of Chinese hamster ovary cells enables prediction of key culture parameters in shake flasks

Scale‐down of CHO cell cultivation from shake flasks based on oxygen mass transfer allows application of parallelized, non‐invasive, and time‐resolved monitoring of the oxygen transfer rate in 48‐well microtiter plates

Experimental kS estimation: A comparison of methods for Corynebacterium glutamicum from lab to microfluidic scale

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Experimental k_S estimation: A comparison of methods for Corynebacterium glutamicum from lab to microfluidic scale