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Chemical inhibitors of hexokinase‐2 enzyme reduce lactate accumulation, alter glycosylation processing, and produce altered glycoforms in CHO cell cultures

Naik, Harnish Mukesh ; Kumar, Swetha ; Reddy, Jayanth Venkatarama ; [et al.]

Wiley ; 2023

In: Biotechnology and Bioengineering Vol. 120, No. 9 ( 2023-09), p. 2559-2577

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In: Biotechnology and Bioengineering, Wiley, Vol. 120, No. 9 ( 2023-09), p. 2559-2577

Abstract: Chinese hamster ovary (CHO) cells, predominant hosts for recombinant biotherapeutics production, generate lactate as a major glycolysis by‐product. High lactate levels adversely impact cell growth and productivity. The goal of this study was to reduce lactate in CHO cell cultures by adding chemical inhibitors to hexokinase‐2 (HK2), the enzyme catalyzing the conversion of glucose to glucose 6‐phosphate, and examine their impact on lactate accumulation, cell growth, protein titers, and N ‐glycosylation. Five inhibitors of HK2 enzyme at different concentrations were evaluated, of which 2‐deoxy‐ d ‐glucose (2DG) and 5‐thio‐ d ‐glucose (5TG) successfully reduced lactate accumulation with only limited impacts on CHO cell growth. Individual 2DG and 5TG supplementation led to a 35%–45% decrease in peak lactate, while their combined supplementation resulted in a 60% decrease in peak lactate. Inhibitor supplementation led to at least 50% decrease in moles of lactate produced per mol of glucose consumed. Recombinant EPO‐Fc titers peaked earlier relative to the end of culture duration in supplemented cultures leading to at least 11% and as high as 32% increase in final EPO‐Fc titers. Asparagine, pyruvate, and serine consumption rates also increased in the exponential growth phase in 2DG and 5TG treated cultures, thus, rewiring central carbon metabolism due to low glycolytic fluxes. N ‐glycan analysis of EPO‐Fc revealed an increase in high mannose glycans from 5% in control cultures to 25% and 37% in 2DG and 5TG‐supplemented cultures, respectively. Inhibitor supplementation also led to a decrease in bi‐, tri‐, and tetra‐antennary structures and up to 50% lower EPO‐Fc sialylation. Interestingly, addition of 2DG led to the incorporation of 2‐deoxy‐hexose (2DH) on EPO‐Fc N ‐glycans and addition of 5TG resulted in the first‐ever observed N ‐glycan incorporation of 5‐thio‐hexose (5TH). Six percent to 23% of N ‐glycans included 5TH moieties, most likely 5‐thio‐mannose and/or 5‐thio‐galactose and/or possibly 5‐thio‐ N ‐acetylglucosamine, and 14%–33% of N ‐glycans included 2DH moieties, most likely 2‐deoxy‐mannose and/or 2‐deoxy‐galactose, for cultures treated with different concentrations of 5TG and 2DG, respectively. Our study is the first to evaluate the impact of these glucose analogs on CHO cell growth, protein production, cell metabolism, N ‐glycosylation processing, and formation of alternative glycoforms.

Type of Medium: Online Resource

ISSN: 0006-3592 , 1097-0290

URL: Issue

URL: Article

DOI: 10.1002/bit.v120.9

DOI: 10.1002/bit.28417

Language: English

Publisher: Wiley

Publication Date: 2023

detail.hit.zdb_id: 1480809-2

detail.hit.zdb_id: 280318-5

SSG: 12

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A genome‐scale nutrient minimization forecast algorithm for controlling essential amino acid levels in CHO cell cultures

Chen, Yiqun ; Liu, Xiao ; Anderson, Ji Young L. ; [et al.]

Wiley ; 2022

In: Biotechnology and Bioengineering Vol. 119, No. 2 ( 2022-02), p. 435-451

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In: Biotechnology and Bioengineering, Wiley, Vol. 119, No. 2 ( 2022-02), p. 435-451

Abstract: Mammalian cell culture processes rely heavily on empirical knowledge in which process control remains a challenge due to the limited characterization/understanding of cell metabolism and inability to predict the cell behaviors. This study facilitates control of Chinese hamster ovary (CHO) processes through a forecast‐based feeding approach that predicts multiple essential amino acids levels in the culture from easily acquired viable cell density data. Multiple cell growth behavior forecast extrapolation approaches are considered with logistic curve fitting found to be the most effective. Next, the nutrient‐minimized CHO genome‐scale model is combined with the growth forecast model to generate essential amino acid forecast profiles of multiple CHO batch cultures. Comparison of the forecast with the measurements suggests that this algorithm can accurately predict the concentration of most essential amino acids from cell density measurement with error mitigated by incorporating off‐line amino acids concentration measurements. Finally, the forecast algorithm is applied to CHO fed‐batch cultures to support amino acid feeding control to control the concentration of essential amino acids below 1–2 mM for lysine, leucine, and valine as a model over a 9‐day fed batch culture while maintaining comparable growth behavior to an empirical‐based culture. In turn, glycine production was elevated, alanine reduced and lactate production slightly lower in control cultures due to metabolic shifts in branched‐chain amino acid degradation. With the advantage of requiring minimal measurement inputs while providing valuable and in‐advance information of the system based on growth measurements, this genome model‐based amino acid forecast algorithm represent a powerful and cost‐effective tool to facilitate enhanced control over CHO and other mammalian cell‐based bioprocesses.

Type of Medium: Online Resource

ISSN: 0006-3592 , 1097-0290

URL: Issue

URL: Article

DOI: 10.1002/bit.v119.2

DOI: 10.1002/bit.27994

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 1480809-2

detail.hit.zdb_id: 280318-5

SSG: 12

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