Genomic alterations and transcriptional phenotypes in circulating free DNA and matched metastatic tumor

Nobuyuki Takahashi; Lorinc Pongor; Shivam P. Agrawal; Mariya Shtumpf; Ankita Gurjar; Vinodh N. Rajapakse; Ahmad Shafiei; Christopher W. Schultz; Sehyun Kim; Diana Roame; Paula Carter; Rasa Vilimas; Samantha Nichols; Parth Desai; William Douglas Figg; Mohammad Bagheri; Vladimir B. Teif; Anish Thomas

doi:10.1186/s13073-025-01438-4

Genomic alterations and transcriptional phenotypes in circulating free DNA and matched metastatic tumor

Nobuyuki Takahashi, Lorinc Pongor, Shivam P. Agrawal, Mariya Shtumpf, Ankita Gurjar, Vinodh N. Rajapakse, Ahmad Shafiei, Christopher W. Schultz, Sehyun Kim, Diana Roame, Paula Carter, Rasa Vilimas, Samantha Nichols, Parth Desai, William Douglas Figg, Mohammad Bagheri, Vladimir B. Teif^*, Anish Thomas^*

^*Corresponding author for this work

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

Abstract

Background: Profiling circulating cell-free DNA (cfDNA) has become a fundamental practice in cancer medicine, but the effectiveness of cfDNA at elucidating tumor-derived molecular features has not been systematically compared to standard single-lesion tumor biopsies in prospective cohorts of patients. The use of plasma instead of tissue to guide therapy is particularly attractive for patients with small cell lung cancer (SCLC), due to the aggressive clinical course of this cancer, which makes obtaining tumor biopsies exceedingly challenging. Methods: In this study, we analyzed a prospective cohort of 49 plasma samples obtained before, during, and after treatment from 20 patients with recurrent SCLC. We conducted cfDNA low-pass whole genome sequencing (0.1X coverage), comparing it with time-point matched tumor characterized using whole-exome (130X) and transcriptome sequencing. Results: A direct comparison of cfDNA and tumor biopsy revealed that cfDNA not only mirrors the mutation and copy number landscape of the corresponding tumor but also identifies clinically relevant resistance mechanisms and cancer driver alterations not detected in matched tumor biopsies. Longitudinal cfDNA analysis reliably tracks tumor response, progression, and clonal evolution. Sequencing coverage of plasma DNA fragments around transcription start sites showed distinct treatment-related changes and captured the expression of key transcription factors such as NEUROD1 and REST in the corresponding SCLC tumors. This allowed for the prediction of SCLC neuroendocrine phenotypes and treatment responses. Conclusions: cfDNA captures a comprehensive view of tumor heterogeneity and evolution. These findings have significant implications for the non-invasive stratification of SCLC, a disease currently treated as a single entity.

Original language	English
Article number	15
Journal	Genome Medicine
Volume	17
Issue number	1
DOIs	https://doi.org/10.1186/s13073-025-01438-4
State	Published - Dec 2025
Externally published	Yes

Keywords

Circulating cell-free DNA
Circulating tumor DNA
Transcription factor binding site
Whole genome sequencing

Access to Document

10.1186/s13073-025-01438-4

Cite this

Takahashi, N., Pongor, L., Agrawal, S. P., Shtumpf, M., Gurjar, A., Rajapakse, V. N., Shafiei, A., Schultz, C. W., Kim, S., Roame, D., Carter, P., Vilimas, R., Nichols, S., Desai, P., Figg, W. D., Bagheri, M., Teif, V. B., & Thomas, A. (2025). Genomic alterations and transcriptional phenotypes in circulating free DNA and matched metastatic tumor. Genome Medicine, 17(1), Article 15. https://doi.org/10.1186/s13073-025-01438-4

@article{7b0a00cd3c9f4ddda8df3697aff81dee,

title = "Genomic alterations and transcriptional phenotypes in circulating free DNA and matched metastatic tumor",

abstract = "Background: Profiling circulating cell-free DNA (cfDNA) has become a fundamental practice in cancer medicine, but the effectiveness of cfDNA at elucidating tumor-derived molecular features has not been systematically compared to standard single-lesion tumor biopsies in prospective cohorts of patients. The use of plasma instead of tissue to guide therapy is particularly attractive for patients with small cell lung cancer (SCLC), due to the aggressive clinical course of this cancer, which makes obtaining tumor biopsies exceedingly challenging. Methods: In this study, we analyzed a prospective cohort of 49 plasma samples obtained before, during, and after treatment from 20 patients with recurrent SCLC. We conducted cfDNA low-pass whole genome sequencing (0.1X coverage), comparing it with time-point matched tumor characterized using whole-exome (130X) and transcriptome sequencing. Results: A direct comparison of cfDNA and tumor biopsy revealed that cfDNA not only mirrors the mutation and copy number landscape of the corresponding tumor but also identifies clinically relevant resistance mechanisms and cancer driver alterations not detected in matched tumor biopsies. Longitudinal cfDNA analysis reliably tracks tumor response, progression, and clonal evolution. Sequencing coverage of plasma DNA fragments around transcription start sites showed distinct treatment-related changes and captured the expression of key transcription factors such as NEUROD1 and REST in the corresponding SCLC tumors. This allowed for the prediction of SCLC neuroendocrine phenotypes and treatment responses. Conclusions: cfDNA captures a comprehensive view of tumor heterogeneity and evolution. These findings have significant implications for the non-invasive stratification of SCLC, a disease currently treated as a single entity.",

keywords = "Circulating cell-free DNA, Circulating tumor DNA, Transcription factor binding site, Whole genome sequencing",

author = "Nobuyuki Takahashi and Lorinc Pongor and Agrawal, {Shivam P.} and Mariya Shtumpf and Ankita Gurjar and Rajapakse, {Vinodh N.} and Ahmad Shafiei and Schultz, {Christopher W.} and Sehyun Kim and Diana Roame and Paula Carter and Rasa Vilimas and Samantha Nichols and Parth Desai and Figg, {William Douglas} and Mohammad Bagheri and Teif, {Vladimir B.} and Anish Thomas",

note = "Publisher Copyright: {\textcopyright} This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2025.",

year = "2025",

month = dec,

doi = "10.1186/s13073-025-01438-4",

language = "English",

volume = "17",

journal = "Genome Medicine",

issn = "1756-994X",

number = "1",

}

Takahashi, N, Pongor, L, Agrawal, SP, Shtumpf, M, Gurjar, A, Rajapakse, VN, Shafiei, A, Schultz, CW, Kim, S, Roame, D, Carter, P, Vilimas, R, Nichols, S, Desai, P, Figg, WD, Bagheri, M, Teif, VB & Thomas, A 2025, 'Genomic alterations and transcriptional phenotypes in circulating free DNA and matched metastatic tumor', Genome Medicine, vol. 17, no. 1, 15. https://doi.org/10.1186/s13073-025-01438-4

TY - JOUR

T1 - Genomic alterations and transcriptional phenotypes in circulating free DNA and matched metastatic tumor

AU - Takahashi, Nobuyuki

AU - Pongor, Lorinc

AU - Agrawal, Shivam P.

AU - Shtumpf, Mariya

AU - Gurjar, Ankita

AU - Rajapakse, Vinodh N.

AU - Shafiei, Ahmad

AU - Schultz, Christopher W.

AU - Kim, Sehyun

AU - Roame, Diana

AU - Carter, Paula

AU - Vilimas, Rasa

AU - Nichols, Samantha

AU - Desai, Parth

AU - Figg, William Douglas

AU - Bagheri, Mohammad

AU - Teif, Vladimir B.

AU - Thomas, Anish

PY - 2025/12

Y1 - 2025/12

N2 - Background: Profiling circulating cell-free DNA (cfDNA) has become a fundamental practice in cancer medicine, but the effectiveness of cfDNA at elucidating tumor-derived molecular features has not been systematically compared to standard single-lesion tumor biopsies in prospective cohorts of patients. The use of plasma instead of tissue to guide therapy is particularly attractive for patients with small cell lung cancer (SCLC), due to the aggressive clinical course of this cancer, which makes obtaining tumor biopsies exceedingly challenging. Methods: In this study, we analyzed a prospective cohort of 49 plasma samples obtained before, during, and after treatment from 20 patients with recurrent SCLC. We conducted cfDNA low-pass whole genome sequencing (0.1X coverage), comparing it with time-point matched tumor characterized using whole-exome (130X) and transcriptome sequencing. Results: A direct comparison of cfDNA and tumor biopsy revealed that cfDNA not only mirrors the mutation and copy number landscape of the corresponding tumor but also identifies clinically relevant resistance mechanisms and cancer driver alterations not detected in matched tumor biopsies. Longitudinal cfDNA analysis reliably tracks tumor response, progression, and clonal evolution. Sequencing coverage of plasma DNA fragments around transcription start sites showed distinct treatment-related changes and captured the expression of key transcription factors such as NEUROD1 and REST in the corresponding SCLC tumors. This allowed for the prediction of SCLC neuroendocrine phenotypes and treatment responses. Conclusions: cfDNA captures a comprehensive view of tumor heterogeneity and evolution. These findings have significant implications for the non-invasive stratification of SCLC, a disease currently treated as a single entity.

AB - Background: Profiling circulating cell-free DNA (cfDNA) has become a fundamental practice in cancer medicine, but the effectiveness of cfDNA at elucidating tumor-derived molecular features has not been systematically compared to standard single-lesion tumor biopsies in prospective cohorts of patients. The use of plasma instead of tissue to guide therapy is particularly attractive for patients with small cell lung cancer (SCLC), due to the aggressive clinical course of this cancer, which makes obtaining tumor biopsies exceedingly challenging. Methods: In this study, we analyzed a prospective cohort of 49 plasma samples obtained before, during, and after treatment from 20 patients with recurrent SCLC. We conducted cfDNA low-pass whole genome sequencing (0.1X coverage), comparing it with time-point matched tumor characterized using whole-exome (130X) and transcriptome sequencing. Results: A direct comparison of cfDNA and tumor biopsy revealed that cfDNA not only mirrors the mutation and copy number landscape of the corresponding tumor but also identifies clinically relevant resistance mechanisms and cancer driver alterations not detected in matched tumor biopsies. Longitudinal cfDNA analysis reliably tracks tumor response, progression, and clonal evolution. Sequencing coverage of plasma DNA fragments around transcription start sites showed distinct treatment-related changes and captured the expression of key transcription factors such as NEUROD1 and REST in the corresponding SCLC tumors. This allowed for the prediction of SCLC neuroendocrine phenotypes and treatment responses. Conclusions: cfDNA captures a comprehensive view of tumor heterogeneity and evolution. These findings have significant implications for the non-invasive stratification of SCLC, a disease currently treated as a single entity.

KW - Circulating cell-free DNA

KW - Circulating tumor DNA

KW - Transcription factor binding site

KW - Whole genome sequencing

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