Propagated Circulating Tumor Cells Uncover the Potential Role of NFκB, EMT, and TGFβ Signaling Pathways and COP1 in Metastasis

Jerry Xiao; Utsav Sharma; Abolfazl Arab; Sohit Miglani; Sonakshi Bhalla; Shravanthy Suguru; Robert Suter; Reetu Mukherji; Marc E. Lippman; Paula R. Pohlmann; Jay C. Zeck; John L. Marshall; Benjamin A. Weinberg; Aiwu Ruth He; Marcus S. Noel; Richard Schlegel; Hani Goodarzi; Seema Agarwal

doi:10.3390/cancers15061831

Propagated Circulating Tumor Cells Uncover the Potential Role of NFκB, EMT, and TGFβ Signaling Pathways and COP1 in Metastasis

Jerry Xiao, Utsav Sharma, Abolfazl Arab, Sohit Miglani, Sonakshi Bhalla, Shravanthy Suguru, Robert Suter, Reetu Mukherji, Marc E. Lippman, Paula R. Pohlmann, Jay C. Zeck, John L. Marshall, Benjamin A. Weinberg, Aiwu Ruth He, Marcus S. Noel, Richard Schlegel, Hani Goodarzi, Seema Agarwal

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

5 Scopus citations

Abstract

Circulating tumor cells (CTCs), a population of cancer cells that represent the seeds of metastatic nodules, are a promising model system for studying metastasis. However, the expansion of patient-derived CTCs ex vivo is challenging and dependent on the collection of high numbers of CTCs, which are ultra-rare. Here we report the development of a combined CTC and cultured CTC-derived xenograft (CDX) platform for expanding and studying patient-derived CTCs from metastatic colon, lung, and pancreatic cancers. The propagated CTCs yielded a highly aggressive population of cells that could be used to routinely and robustly establish primary tumors and metastatic lesions in CDXs. Differential gene analysis of the resultant CTC models emphasized a role for NF-κB, EMT, and TGFβ signaling as pan-cancer signaling pathways involved in metastasis. Furthermore, metastatic CTCs were identified through a prospective five-gene signature (BCAR1, COL1A1, IGSF3, RRAD, and TFPI2). Whole-exome sequencing of CDX models and metastases further identified mutations in constitutive photomorphogenesis protein 1 (COP1) as a potential driver of metastasis. These findings illustrate the utility of the combined patient-derived CTC model and provide a glimpse of the promise of CTCs in identifying drivers of cancer metastasis.

Original language	English (US)
Article number	1831
Journal	Cancers
Volume	15
Issue number	6
DOIs	https://doi.org/10.3390/cancers15061831
State	Published - Mar 2023
Externally published	Yes

Keywords

CDX model
circulating tumor cells
colon cancer
lung cancer
metastatic cancer
pancreatic cancer

ASJC Scopus subject areas

Oncology
Cancer Research

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10.3390/cancers15061831

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Xiao, J., Sharma, U., Arab, A., Miglani, S., Bhalla, S., Suguru, S., Suter, R., Mukherji, R., Lippman, M. E., Pohlmann, P. R., Zeck, J. C., Marshall, J. L., Weinberg, B. A., He, A. R., Noel, M. S., Schlegel, R., Goodarzi, H., & Agarwal, S. (2023). Propagated Circulating Tumor Cells Uncover the Potential Role of NFκB, EMT, and TGFβ Signaling Pathways and COP1 in Metastasis. Cancers, 15(6), Article 1831. https://doi.org/10.3390/cancers15061831

Xiao, J, Sharma, U, Arab, A, Miglani, S, Bhalla, S, Suguru, S, Suter, R, Mukherji, R, Lippman, ME, Pohlmann, PR, Zeck, JC, Marshall, JL, Weinberg, BA, He, AR, Noel, MS, Schlegel, R, Goodarzi, H & Agarwal, S 2023, 'Propagated Circulating Tumor Cells Uncover the Potential Role of NFκB, EMT, and TGFβ Signaling Pathways and COP1 in Metastasis', Cancers, vol. 15, no. 6, 1831. https://doi.org/10.3390/cancers15061831

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abstract = "Circulating tumor cells (CTCs), a population of cancer cells that represent the seeds of metastatic nodules, are a promising model system for studying metastasis. However, the expansion of patient-derived CTCs ex vivo is challenging and dependent on the collection of high numbers of CTCs, which are ultra-rare. Here we report the development of a combined CTC and cultured CTC-derived xenograft (CDX) platform for expanding and studying patient-derived CTCs from metastatic colon, lung, and pancreatic cancers. The propagated CTCs yielded a highly aggressive population of cells that could be used to routinely and robustly establish primary tumors and metastatic lesions in CDXs. Differential gene analysis of the resultant CTC models emphasized a role for NF-κB, EMT, and TGFβ signaling as pan-cancer signaling pathways involved in metastasis. Furthermore, metastatic CTCs were identified through a prospective five-gene signature (BCAR1, COL1A1, IGSF3, RRAD, and TFPI2). Whole-exome sequencing of CDX models and metastases further identified mutations in constitutive photomorphogenesis protein 1 (COP1) as a potential driver of metastasis. These findings illustrate the utility of the combined patient-derived CTC model and provide a glimpse of the promise of CTCs in identifying drivers of cancer metastasis.",

keywords = "CDX model, circulating tumor cells, colon cancer, lung cancer, metastatic cancer, pancreatic cancer",

author = "Jerry Xiao and Utsav Sharma and Abolfazl Arab and Sohit Miglani and Sonakshi Bhalla and Shravanthy Suguru and Robert Suter and Reetu Mukherji and Lippman, {Marc E.} and Pohlmann, {Paula R.} and Zeck, {Jay C.} and Marshall, {John L.} and Weinberg, {Benjamin A.} and He, {Aiwu Ruth} and Noel, {Marcus S.} and Richard Schlegel and Hani Goodarzi and Seema Agarwal",

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doi = "10.3390/cancers15061831",

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AU - Xiao, Jerry

AU - Sharma, Utsav

AU - Arab, Abolfazl

AU - Miglani, Sohit

AU - Bhalla, Sonakshi

AU - Suguru, Shravanthy

AU - Suter, Robert

AU - Mukherji, Reetu

AU - Lippman, Marc E.

AU - Pohlmann, Paula R.

AU - Zeck, Jay C.

AU - Marshall, John L.

AU - Weinberg, Benjamin A.

AU - He, Aiwu Ruth

AU - Noel, Marcus S.

AU - Schlegel, Richard

AU - Goodarzi, Hani

AU - Agarwal, Seema

PY - 2023/3

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N2 - Circulating tumor cells (CTCs), a population of cancer cells that represent the seeds of metastatic nodules, are a promising model system for studying metastasis. However, the expansion of patient-derived CTCs ex vivo is challenging and dependent on the collection of high numbers of CTCs, which are ultra-rare. Here we report the development of a combined CTC and cultured CTC-derived xenograft (CDX) platform for expanding and studying patient-derived CTCs from metastatic colon, lung, and pancreatic cancers. The propagated CTCs yielded a highly aggressive population of cells that could be used to routinely and robustly establish primary tumors and metastatic lesions in CDXs. Differential gene analysis of the resultant CTC models emphasized a role for NF-κB, EMT, and TGFβ signaling as pan-cancer signaling pathways involved in metastasis. Furthermore, metastatic CTCs were identified through a prospective five-gene signature (BCAR1, COL1A1, IGSF3, RRAD, and TFPI2). Whole-exome sequencing of CDX models and metastases further identified mutations in constitutive photomorphogenesis protein 1 (COP1) as a potential driver of metastasis. These findings illustrate the utility of the combined patient-derived CTC model and provide a glimpse of the promise of CTCs in identifying drivers of cancer metastasis.

AB - Circulating tumor cells (CTCs), a population of cancer cells that represent the seeds of metastatic nodules, are a promising model system for studying metastasis. However, the expansion of patient-derived CTCs ex vivo is challenging and dependent on the collection of high numbers of CTCs, which are ultra-rare. Here we report the development of a combined CTC and cultured CTC-derived xenograft (CDX) platform for expanding and studying patient-derived CTCs from metastatic colon, lung, and pancreatic cancers. The propagated CTCs yielded a highly aggressive population of cells that could be used to routinely and robustly establish primary tumors and metastatic lesions in CDXs. Differential gene analysis of the resultant CTC models emphasized a role for NF-κB, EMT, and TGFβ signaling as pan-cancer signaling pathways involved in metastasis. Furthermore, metastatic CTCs were identified through a prospective five-gene signature (BCAR1, COL1A1, IGSF3, RRAD, and TFPI2). Whole-exome sequencing of CDX models and metastases further identified mutations in constitutive photomorphogenesis protein 1 (COP1) as a potential driver of metastasis. These findings illustrate the utility of the combined patient-derived CTC model and provide a glimpse of the promise of CTCs in identifying drivers of cancer metastasis.

KW - CDX model

KW - circulating tumor cells

KW - colon cancer

KW - lung cancer

KW - metastatic cancer

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Propagated Circulating Tumor Cells Uncover the Potential Role of NFκB, EMT, and TGFβ Signaling Pathways and COP1 in Metastasis

Abstract

Keywords

ASJC Scopus subject areas

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