Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine

Jia Yang Chen; Hsu Huan Chou; Syer Choon Lim; Yen Jang Huang; Kuan Chen Lai; Chin Lin Guo; Chien Yi Tung; Chung Tsai Su; Jocelyn Wang; Edward Liu; Hsiao Fen Han; Po Ying Yeh; Chun Mei Hu; Alexander R. Dunn; Curtis W. Frank; Yi Chun Wu; Muh Hwa Yang; Ying Chih Chang

doi:10.1016/j.isci.2022.105081

Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine

Jia Yang Chen, Hsu Huan Chou, Syer Choon Lim, Yen Jang Huang, Kuan Chen Lai, Chin Lin Guo, Chien Yi Tung, Chung Tsai Su, Jocelyn Wang, Edward Liu, Hsiao Fen Han, Po Ying Yeh, Chun Mei Hu, Alexander R. Dunn, Curtis W. Frank, Yi Chun Wu^*, Muh Hwa Yang^*, Ying Chih Chang^*

^*此作品的通信作者

研究成果: Article › 同行評審

10 引文斯高帕斯（Scopus）

摘要

Matching the treatment to an individual patient's tumor state can increase therapeutic efficacy and reduce tumor recurrence. Circulating tumor cells (CTCs) derived from solid tumors are promising subjects for theragnostic analysis. To analyze how CTCs represent tumor states, we established cell lines from CTCs, primary and metastatic tumors from a mouse model and provided phenotypic and multiomic analyses of these cells. CTCs and metastatic cells, but not primary tumor cells, shared stochastic mutations and similar hypomethylation levels at transcription start sites. CTCs and metastatic tumor cells shared a hybrid epithelial/mesenchymal transcriptome state with reduced adhesive and enhanced mobilization characteristics. We tested anti-cancer drugs on tumor cells from a metastatic breast cancer patient. CTC responses mirrored the impact of drugs on metastatic rather than primary tumors. Our multiomic and clinical anti-cancer drug response results reveal that CTCs resemble metastatic tumors and establish CTCs as an ex vivo tool for personalized medicine.

原文	English
文章編號	105081
期刊	iScience
卷	25
發行號	10
DOIs	https://doi.org/10.1016/j.isci.2022.105081
出版狀態	Published - 21 10月 2022

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Chen, J. Y., Chou, H. H., Lim, S. C., Huang, Y. J., Lai, K. C., Guo, C. L., Tung, C. Y., Su, C. T., Wang, J., Liu, E., Han, H. F., Yeh, P. Y., Hu, C. M., Dunn, A. R., Frank, C. W., Wu, Y. C., Yang, M. H., & Chang, Y. C. (2022). Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine. iScience, 25(10), 文章 105081. https://doi.org/10.1016/j.isci.2022.105081

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title = "Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine",

abstract = "Matching the treatment to an individual patient's tumor state can increase therapeutic efficacy and reduce tumor recurrence. Circulating tumor cells (CTCs) derived from solid tumors are promising subjects for theragnostic analysis. To analyze how CTCs represent tumor states, we established cell lines from CTCs, primary and metastatic tumors from a mouse model and provided phenotypic and multiomic analyses of these cells. CTCs and metastatic cells, but not primary tumor cells, shared stochastic mutations and similar hypomethylation levels at transcription start sites. CTCs and metastatic tumor cells shared a hybrid epithelial/mesenchymal transcriptome state with reduced adhesive and enhanced mobilization characteristics. We tested anti-cancer drugs on tumor cells from a metastatic breast cancer patient. CTC responses mirrored the impact of drugs on metastatic rather than primary tumors. Our multiomic and clinical anti-cancer drug response results reveal that CTCs resemble metastatic tumors and establish CTCs as an ex vivo tool for personalized medicine.",

keywords = "Cancer, Omics, Precision medicine, Transcriptomics",

author = "Chen, {Jia Yang} and Chou, {Hsu Huan} and Lim, {Syer Choon} and Huang, {Yen Jang} and Lai, {Kuan Chen} and Guo, {Chin Lin} and Tung, {Chien Yi} and Su, {Chung Tsai} and Jocelyn Wang and Edward Liu and Han, {Hsiao Fen} and Yeh, {Po Ying} and Hu, {Chun Mei} and Dunn, {Alexander R.} and Frank, {Curtis W.} and Wu, {Yi Chun} and Yang, {Muh Hwa} and Chang, {Ying Chih}",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2022",

month = oct,

day = "21",

doi = "10.1016/j.isci.2022.105081",

language = "English",

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Chen, JY, Chou, HH, Lim, SC, Huang, YJ, Lai, KC, Guo, CL, Tung, CY, Su, CT, Wang, J, Liu, E, Han, HF, Yeh, PY, Hu, CM, Dunn, AR, Frank, CW, Wu, YC, Yang, MH & Chang, YC 2022, 'Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine', iScience, 卷 25, 編號 10, 105081. https://doi.org/10.1016/j.isci.2022.105081

TY - JOUR

T1 - Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine

AU - Chen, Jia Yang

AU - Chou, Hsu Huan

AU - Lim, Syer Choon

AU - Huang, Yen Jang

AU - Lai, Kuan Chen

AU - Guo, Chin Lin

AU - Tung, Chien Yi

AU - Su, Chung Tsai

AU - Wang, Jocelyn

AU - Liu, Edward

AU - Han, Hsiao Fen

AU - Yeh, Po Ying

AU - Hu, Chun Mei

AU - Dunn, Alexander R.

AU - Frank, Curtis W.

AU - Wu, Yi Chun

AU - Yang, Muh Hwa

AU - Chang, Ying Chih

PY - 2022/10/21

Y1 - 2022/10/21

N2 - Matching the treatment to an individual patient's tumor state can increase therapeutic efficacy and reduce tumor recurrence. Circulating tumor cells (CTCs) derived from solid tumors are promising subjects for theragnostic analysis. To analyze how CTCs represent tumor states, we established cell lines from CTCs, primary and metastatic tumors from a mouse model and provided phenotypic and multiomic analyses of these cells. CTCs and metastatic cells, but not primary tumor cells, shared stochastic mutations and similar hypomethylation levels at transcription start sites. CTCs and metastatic tumor cells shared a hybrid epithelial/mesenchymal transcriptome state with reduced adhesive and enhanced mobilization characteristics. We tested anti-cancer drugs on tumor cells from a metastatic breast cancer patient. CTC responses mirrored the impact of drugs on metastatic rather than primary tumors. Our multiomic and clinical anti-cancer drug response results reveal that CTCs resemble metastatic tumors and establish CTCs as an ex vivo tool for personalized medicine.

AB - Matching the treatment to an individual patient's tumor state can increase therapeutic efficacy and reduce tumor recurrence. Circulating tumor cells (CTCs) derived from solid tumors are promising subjects for theragnostic analysis. To analyze how CTCs represent tumor states, we established cell lines from CTCs, primary and metastatic tumors from a mouse model and provided phenotypic and multiomic analyses of these cells. CTCs and metastatic cells, but not primary tumor cells, shared stochastic mutations and similar hypomethylation levels at transcription start sites. CTCs and metastatic tumor cells shared a hybrid epithelial/mesenchymal transcriptome state with reduced adhesive and enhanced mobilization characteristics. We tested anti-cancer drugs on tumor cells from a metastatic breast cancer patient. CTC responses mirrored the impact of drugs on metastatic rather than primary tumors. Our multiomic and clinical anti-cancer drug response results reveal that CTCs resemble metastatic tumors and establish CTCs as an ex vivo tool for personalized medicine.

KW - Cancer

KW - Omics

KW - Precision medicine

KW - Transcriptomics

UR - http://www.scopus.com/inward/record.url?scp=85139048092&partnerID=8YFLogxK

U2 - 10.1016/j.isci.2022.105081

DO - 10.1016/j.isci.2022.105081

M3 - Article

AN - SCOPUS:85139048092

SN - 2589-0042

VL - 25

JO - iScience

JF - iScience

IS - 10

M1 - 105081

ER -

Multiomic characterization and drug testing establish circulating tumor cells as an ex vivo tool for personalized medicine

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