Accurate identification of primary site in tumors of unknown origin (TUO) using DNA methylation

Drew Duckett; Erica R. Vormittag-Nocito; Pouya Jamshidi; Madina Sukhanova; Stephanie Parker; Daniel J. Brat; Lawrence J. Jennings; Lucas Santana-Santos

doi:10.1038/s41698-025-00805-z

Accurate identification of primary site in tumors of unknown origin (TUO) using DNA methylation

Drew Duckett, Erica R. Vormittag-Nocito, Pouya Jamshidi, Madina Sukhanova, Stephanie Parker, Daniel J. Brat, Lawrence J. Jennings, Lucas Santana-Santos^*

^*Corresponding author for this work

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

Abstract

Tumors of unknown origin (TUO) generally result in poor patient survival and are clinically difficult to address. Identification of the site of origin in TUO patients is paramount to their improved treatment and survival but is difficult to obtain with current methods. Here, we develop a random forest machine learning TUO methylation classifier using a large number of primary and metastatic tumor samples. Our classifier achieves high accuracy in primary site identification when applied to both publicly available and internal validation samples, with 97% of samples classified correctly and 85% receiving high probability scores (≥0.9). Moreover, by employing pathologist expertise and t-SNE visualization, the TUO classifier can assign samples to 46 different sites of origin/disease classes. This strategy also revealed multiple classes of yet unknown significance for future exploration. Overall, the presented TUO classifier represents a significant step forward in the diagnosis of TUO tumors.

Original language	English (US)
Article number	8
Journal	npj Precision Oncology
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41698-025-00805-z
State	Published - Dec 2025

ASJC Scopus subject areas

Oncology
Cancer Research

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41698-025-00805-z

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title = "Accurate identification of primary site in tumors of unknown origin (TUO) using DNA methylation",

abstract = "Tumors of unknown origin (TUO) generally result in poor patient survival and are clinically difficult to address. Identification of the site of origin in TUO patients is paramount to their improved treatment and survival but is difficult to obtain with current methods. Here, we develop a random forest machine learning TUO methylation classifier using a large number of primary and metastatic tumor samples. Our classifier achieves high accuracy in primary site identification when applied to both publicly available and internal validation samples, with 97% of samples classified correctly and 85% receiving high probability scores (≥0.9). Moreover, by employing pathologist expertise and t-SNE visualization, the TUO classifier can assign samples to 46 different sites of origin/disease classes. This strategy also revealed multiple classes of yet unknown significance for future exploration. Overall, the presented TUO classifier represents a significant step forward in the diagnosis of TUO tumors.",

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doi = "10.1038/s41698-025-00805-z",

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AU - Duckett, Drew

AU - Vormittag-Nocito, Erica R.

AU - Jamshidi, Pouya

AU - Sukhanova, Madina

AU - Parker, Stephanie

AU - Brat, Daniel J.

AU - Jennings, Lawrence J.

AU - Santana-Santos, Lucas

PY - 2025/12

Y1 - 2025/12

N2 - Tumors of unknown origin (TUO) generally result in poor patient survival and are clinically difficult to address. Identification of the site of origin in TUO patients is paramount to their improved treatment and survival but is difficult to obtain with current methods. Here, we develop a random forest machine learning TUO methylation classifier using a large number of primary and metastatic tumor samples. Our classifier achieves high accuracy in primary site identification when applied to both publicly available and internal validation samples, with 97% of samples classified correctly and 85% receiving high probability scores (≥0.9). Moreover, by employing pathologist expertise and t-SNE visualization, the TUO classifier can assign samples to 46 different sites of origin/disease classes. This strategy also revealed multiple classes of yet unknown significance for future exploration. Overall, the presented TUO classifier represents a significant step forward in the diagnosis of TUO tumors.

AB - Tumors of unknown origin (TUO) generally result in poor patient survival and are clinically difficult to address. Identification of the site of origin in TUO patients is paramount to their improved treatment and survival but is difficult to obtain with current methods. Here, we develop a random forest machine learning TUO methylation classifier using a large number of primary and metastatic tumor samples. Our classifier achieves high accuracy in primary site identification when applied to both publicly available and internal validation samples, with 97% of samples classified correctly and 85% receiving high probability scores (≥0.9). Moreover, by employing pathologist expertise and t-SNE visualization, the TUO classifier can assign samples to 46 different sites of origin/disease classes. This strategy also revealed multiple classes of yet unknown significance for future exploration. Overall, the presented TUO classifier represents a significant step forward in the diagnosis of TUO tumors.

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Accurate identification of primary site in tumors of unknown origin (TUO) using DNA methylation

Abstract

ASJC Scopus subject areas

UN SDGs

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