Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation
In vitro differentiation of hematopoietic stem cells (HSCs) is a highly dynamic process whereby contributions of exogenous cytokines vary at each stage of differentiation. In this study, we present erythroid differentiation as three progressive yet independent stages and aim to elucidate transient c...
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sg-ntu-dr.10356-994712020-03-07T11:35:38Z Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation Lim, Mayasari Shunjie, Chua Panoskaltsis, Nicki Mantalaris, Athanasios (Sakis) School of Chemical and Biomedical Engineering In vitro differentiation of hematopoietic stem cells (HSCs) is a highly dynamic process whereby contributions of exogenous cytokines vary at each stage of differentiation. In this study, we present erythroid differentiation as three progressive yet independent stages and aim to elucidate transient contributions from stem cell factor (SCF), insulin-growth factor II (IGF-II), and erythropoietin (EPO). This will be accomplished using the Taguchi design and response surface methodology (RSM). We found that cultures with high process variability (noise factors), such as those in primary cell cultures, pose limitations on the effectiveness of RSM and result in inconsistencies in empirical models developed for elucidating transient effects. However, the Taguchi design—which showed greater robustness in accommodating for noise factors—successfully identified significant main and interactive contributions at each differentiation stage, thus highlighting the dynamic roles of each cytokine. The Taguchi analysis suggested high IGF-II dependency during early erythroid differentiation, with an antagonistic effect in the presence of EPO. At mid-stage differentiation, the roles of SCF and EPO dominate those of IGF-II, and the former act independently. Finally, toward erythroid maturation, only EPO plays a significant role. Although process outcomes from the Taguchi analysis were semi-quantitative, this approach provides a path for overcoming cell culture and sample-to-sample variability and can therefore be utilized with many cell culture applications in order to understandcomplex and intricate process relationships. 2013-08-01T02:18:25Z 2019-12-06T20:07:51Z 2013-08-01T02:18:25Z 2019-12-06T20:07:51Z 2012 2012 Journal Article Lim, M., Shunjie, C., Panoskaltsis, N.,& Mantalaris, A. (2012). Systematic experimental design for bioprocess characterization: Elucidating transient effects of multi-cytokine contributions on erythroid differentiation. Biotechnology and Bioprocess Engineering, 17(1), 218-226. https://hdl.handle.net/10356/99471 http://hdl.handle.net/10220/12708 10.1007/s12257-011-0422-y en Biotechnology and bioprocess engineering |
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In vitro differentiation of hematopoietic stem cells (HSCs) is a highly dynamic process whereby contributions of exogenous cytokines vary at each stage of differentiation. In this study, we present erythroid differentiation as three progressive yet independent stages and aim to elucidate transient contributions from stem cell factor (SCF), insulin-growth factor II (IGF-II), and erythropoietin (EPO). This will be accomplished using the Taguchi design and response surface methodology (RSM). We found that cultures with high process variability (noise factors), such as those in primary cell cultures, pose limitations on the effectiveness of RSM and result in inconsistencies in empirical models developed for elucidating transient effects. However, the Taguchi design—which showed greater robustness in accommodating for noise factors—successfully identified significant main and interactive contributions at each differentiation stage, thus highlighting the dynamic roles of each cytokine. The Taguchi analysis suggested high IGF-II dependency during early erythroid differentiation, with an antagonistic effect in the presence of EPO. At mid-stage differentiation, the roles of SCF and EPO dominate those of IGF-II, and the former act independently. Finally, toward erythroid maturation, only EPO plays a significant role. Although process outcomes from the Taguchi analysis were semi-quantitative, this approach provides a path for overcoming cell culture and sample-to-sample variability and can therefore be utilized with many cell culture applications in order to understandcomplex and intricate process relationships. |
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School of Chemical and Biomedical Engineering |
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School of Chemical and Biomedical Engineering Lim, Mayasari Shunjie, Chua Panoskaltsis, Nicki Mantalaris, Athanasios (Sakis) |
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Article |
| author |
Lim, Mayasari Shunjie, Chua Panoskaltsis, Nicki Mantalaris, Athanasios (Sakis) |
| spellingShingle |
Lim, Mayasari Shunjie, Chua Panoskaltsis, Nicki Mantalaris, Athanasios (Sakis) Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| author_sort |
Lim, Mayasari |
| title |
Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| title_short |
Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| title_full |
Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| title_fullStr |
Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| title_full_unstemmed |
Systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| title_sort |
systematic experimental design for bioprocess characterization: elucidating transient effects of multi-cytokine contributions on erythroid differentiation |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/99471 http://hdl.handle.net/10220/12708 |
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1681044380865003520 |