Conditional reprogramming and long-term expansion of normal and tumor cells from human biospecimens

Xuefeng Liu; Ewa Krawczyk; Frank A. Suprynowicz; Nancy Palechor-Ceron; Hang Yuan; Aleksandra Dakic; Vera Simic; Yun Ling Zheng; Praathibha Sripadhan; Chen Chen; Jie Lu; Tung Wei Hou; Sujata Choudhury; Bhaskar Kallakury; Dean Tang; Thomas Darling; Rajesh Thangapazham; Olga Timofeeva; Anatoly Dritschilo; Scott H. Randell; Christopher Albanese; Seema Agarwal; Richard Schlegel

doi:10.1038/nprot.2016.174

Conditional reprogramming and long-term expansion of normal and tumor cells from human biospecimens

Xuefeng Liu, Ewa Krawczyk, Frank A. Suprynowicz, Nancy Palechor-Ceron, Hang Yuan, Aleksandra Dakic, Vera Simic, Yun Ling Zheng, Praathibha Sripadhan, Chen Chen, Jie Lu, Tung Wei Hou, Sujata Choudhury, Bhaskar Kallakury, Dean Tang, Thomas Darling, Rajesh Thangapazham, Olga Timofeeva, Anatoly Dritschilo, Scott H. RandellChristopher Albanese, Seema Agarwal, Richard Schlegel^*

^*Corresponding author for this work

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

246 Scopus citations

Abstract

Historically, it has been difficult to propagate cells in vitro that are derived directly from human tumors or healthy tissue. However, in vitro preclinical models are essential tools for both the study of basic cancer biology and the promotion of translational research, including drug discovery and drug target identification. This protocol describes conditional reprogramming (CR), which involves coculture of irradiated mouse fibroblast feeder cells with normal and tumor human epithelial cells in the presence of a Rho kinase inhibitor (Y-27632). CR cells can be used for various applications, including regenerative medicine, drug sensitivity testing, gene expression profiling and xenograft studies. The method requires a pathologist to differentiate healthy tissue from tumor tissue, and basic tissue culture skills. The protocol can be used with cells derived from both fresh and cryopreserved tissue samples. As approximately 1 million cells can be generated in 7 d, the technique is directly applicable to diagnostic and predictive medicine. Moreover, the epithelial cells can be propagated indefinitely in vitro, yet retain the capacity to become fully differentiated when placed into conditions that mimic their natural environment.

Original language	English
Pages (from-to)	439-451
Number of pages	13
Journal	Nature Protocols
Volume	12
Issue number	2
DOIs	https://doi.org/10.1038/nprot.2016.174
State	Published - 1 Feb 2017
Externally published	Yes

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10.1038/nprot.2016.174

Cite this

Liu, X., Krawczyk, E., Suprynowicz, F. A., Palechor-Ceron, N., Yuan, H., Dakic, A., Simic, V., Zheng, Y. L., Sripadhan, P., Chen, C., Lu, J., Hou, T. W., Choudhury, S., Kallakury, B., Tang, D., Darling, T., Thangapazham, R., Timofeeva, O., Dritschilo, A., ... Schlegel, R. (2017). Conditional reprogramming and long-term expansion of normal and tumor cells from human biospecimens. Nature Protocols, 12(2), 439-451. https://doi.org/10.1038/nprot.2016.174

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abstract = "Historically, it has been difficult to propagate cells in vitro that are derived directly from human tumors or healthy tissue. However, in vitro preclinical models are essential tools for both the study of basic cancer biology and the promotion of translational research, including drug discovery and drug target identification. This protocol describes conditional reprogramming (CR), which involves coculture of irradiated mouse fibroblast feeder cells with normal and tumor human epithelial cells in the presence of a Rho kinase inhibitor (Y-27632). CR cells can be used for various applications, including regenerative medicine, drug sensitivity testing, gene expression profiling and xenograft studies. The method requires a pathologist to differentiate healthy tissue from tumor tissue, and basic tissue culture skills. The protocol can be used with cells derived from both fresh and cryopreserved tissue samples. As approximately 1 million cells can be generated in 7 d, the technique is directly applicable to diagnostic and predictive medicine. Moreover, the epithelial cells can be propagated indefinitely in vitro, yet retain the capacity to become fully differentiated when placed into conditions that mimic their natural environment.",

author = "Xuefeng Liu and Ewa Krawczyk and Suprynowicz, {Frank A.} and Nancy Palechor-Ceron and Hang Yuan and Aleksandra Dakic and Vera Simic and Zheng, {Yun Ling} and Praathibha Sripadhan and Chen Chen and Jie Lu and Hou, {Tung Wei} and Sujata Choudhury and Bhaskar Kallakury and Dean Tang and Thomas Darling and Rajesh Thangapazham and Olga Timofeeva and Anatoly Dritschilo and Randell, {Scott H.} and Christopher Albanese and Seema Agarwal and Richard Schlegel",

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Liu, X, Krawczyk, E, Suprynowicz, FA, Palechor-Ceron, N, Yuan, H, Dakic, A, Simic, V, Zheng, YL, Sripadhan, P, Chen, C, Lu, J, Hou, TW, Choudhury, S, Kallakury, B, Tang, D, Darling, T, Thangapazham, R, Timofeeva, O, Dritschilo, A, Randell, SH, Albanese, C, Agarwal, S & Schlegel, R 2017, 'Conditional reprogramming and long-term expansion of normal and tumor cells from human biospecimens', Nature Protocols, vol. 12, no. 2, pp. 439-451. https://doi.org/10.1038/nprot.2016.174

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AU - Yuan, Hang

AU - Dakic, Aleksandra

AU - Simic, Vera

AU - Zheng, Yun Ling

AU - Sripadhan, Praathibha

AU - Chen, Chen

AU - Lu, Jie

AU - Hou, Tung Wei

AU - Choudhury, Sujata

AU - Kallakury, Bhaskar

AU - Tang, Dean

AU - Darling, Thomas

AU - Thangapazham, Rajesh

AU - Timofeeva, Olga

AU - Dritschilo, Anatoly

AU - Randell, Scott H.

AU - Albanese, Christopher

AU - Agarwal, Seema

AU - Schlegel, Richard

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