Nutrient regulation by continuous feeding for large-scale expansion of mammalian cells in spheroids

Bradley P Weegman; Ahmad Essawy; Peter Nash; Alexandra L. Carlson; Kristin J. Voltzke; Zhaohui Geng; Marjan Jahani; Benjamin B. Becker; Klearchos K. Papas; Meri Firpo

doi:10.3791/52224

Nutrient regulation by continuous feeding for large-scale expansion of mammalian cells in spheroids

Bradley P Weegman, Ahmad Essawy, Peter Nash, Alexandra L. Carlson, Kristin J. Voltzke, Zhaohui Geng, Marjan Jahani, Benjamin B. Becker, Klearchos K. Papas, Meri Firpo

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

In this demonstration, spheroids formed from the β-TC6 insulinoma cell line were cultured as a model of manufacturing a mammalian islet cell product to demonstrate how regulating nutrient levels can improve cell yields. In previous studies, bioreactors facilitated increased culture volumes over static cultures, but no increase in cell yields were observed. Limitations in key nutrients such as glucose, which were consumed between batch feedings, can lead to limitations in cell expansion. Large fluctuations in glucose levels were observed, despite the increase in glucose concentrations in the media. The use of continuous feeding systems eliminated fluctuations in glucose levels, and improved cell growth rates when compared with batch fed static and SSB culture methods. Additional increases in growth rates were observed by adjusting the feed rate based on calculated nutrient consumption, which allowed the maintenance of physiological glucose over three weeks in culture. This method can also be adapted for other cell types.

Original language	English (US)
Article number	e52224
Journal	Journal of Visualized Experiments
Volume	2016
Issue number	115
DOIs	https://doi.org/10.3791/52224
State	Published - Sep 25 2016

Bibliographical note

Publisher Copyright:
© 2016 Journal of Visualized Experiments.

Keywords

Bioengineering
Bioreactor
Continuous feeding
Culture
Expansion
Glucose
Issue 115
Nutrient regulation
Spheroid
Stirred suspension bioreactor

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title = "Nutrient regulation by continuous feeding for large-scale expansion of mammalian cells in spheroids",

abstract = "In this demonstration, spheroids formed from the β-TC6 insulinoma cell line were cultured as a model of manufacturing a mammalian islet cell product to demonstrate how regulating nutrient levels can improve cell yields. In previous studies, bioreactors facilitated increased culture volumes over static cultures, but no increase in cell yields were observed. Limitations in key nutrients such as glucose, which were consumed between batch feedings, can lead to limitations in cell expansion. Large fluctuations in glucose levels were observed, despite the increase in glucose concentrations in the media. The use of continuous feeding systems eliminated fluctuations in glucose levels, and improved cell growth rates when compared with batch fed static and SSB culture methods. Additional increases in growth rates were observed by adjusting the feed rate based on calculated nutrient consumption, which allowed the maintenance of physiological glucose over three weeks in culture. This method can also be adapted for other cell types.",

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AU - Essawy, Ahmad

AU - Nash, Peter

AU - Carlson, Alexandra L.

AU - Voltzke, Kristin J.

AU - Geng, Zhaohui

AU - Jahani, Marjan

AU - Becker, Benjamin B.

AU - Papas, Klearchos K.

AU - Firpo, Meri

PY - 2016/9/25

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N2 - In this demonstration, spheroids formed from the β-TC6 insulinoma cell line were cultured as a model of manufacturing a mammalian islet cell product to demonstrate how regulating nutrient levels can improve cell yields. In previous studies, bioreactors facilitated increased culture volumes over static cultures, but no increase in cell yields were observed. Limitations in key nutrients such as glucose, which were consumed between batch feedings, can lead to limitations in cell expansion. Large fluctuations in glucose levels were observed, despite the increase in glucose concentrations in the media. The use of continuous feeding systems eliminated fluctuations in glucose levels, and improved cell growth rates when compared with batch fed static and SSB culture methods. Additional increases in growth rates were observed by adjusting the feed rate based on calculated nutrient consumption, which allowed the maintenance of physiological glucose over three weeks in culture. This method can also be adapted for other cell types.

AB - In this demonstration, spheroids formed from the β-TC6 insulinoma cell line were cultured as a model of manufacturing a mammalian islet cell product to demonstrate how regulating nutrient levels can improve cell yields. In previous studies, bioreactors facilitated increased culture volumes over static cultures, but no increase in cell yields were observed. Limitations in key nutrients such as glucose, which were consumed between batch feedings, can lead to limitations in cell expansion. Large fluctuations in glucose levels were observed, despite the increase in glucose concentrations in the media. The use of continuous feeding systems eliminated fluctuations in glucose levels, and improved cell growth rates when compared with batch fed static and SSB culture methods. Additional increases in growth rates were observed by adjusting the feed rate based on calculated nutrient consumption, which allowed the maintenance of physiological glucose over three weeks in culture. This method can also be adapted for other cell types.

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KW - Bioreactor

KW - Continuous feeding

KW - Culture

KW - Expansion

KW - Glucose

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KW - Nutrient regulation

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KW - Stirred suspension bioreactor

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Nutrient regulation by continuous feeding for large-scale expansion of mammalian cells in spheroids

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