OncoMark: a high-throughput neural multi-task learning framework for comprehensive cancer hallmark quantification
OncoMark: a high-throughput neural multi-task learning framework for comprehensive cancer hallmark quantification
Quantifying the biological processes that drive cancer progression remains a key challenge in oncology. Although the hallmarks of cancer provide a foundational framework for understanding tumor behavior, existing diagnostic tools rarely measure these hallmarks directly. Here we present a neural multi-task learning-based framework that estimates hallmark activity using gene expression data from tumor biopsies. The model was trained on transcriptomic profiles from 941 tumors spanning 14 tissue types and tested on five independent datasets. It predicts the activity of ten cancer hallmarks simultaneously and with high accuracy. Additional validation on large-scale datasets including normal and cancer samples confirmed its sensitivity and specificity. Predicted hallmark activity was associated with clinical staging, suggesting biological relevance. A web-based tool was developed to facilitate integration into research and clinical workflows. This approach enables efficient analysis of transcriptomic data to inform understanding of tumor biology and support individualized treatment strategies.
Priyadarshi, Shreyansh
143bb9dc-4cf5-431b-8f32-fcfe5ac977cb
Mazumder, Camellia
8623e346-1d54-4a1d-8ead-f59cb1caa55e
Neekhra, Bhavesh
6392b211-7547-4888-8abd-abe59fbafd84
Biswas, Sayan
71540445-0441-458c-91c9-b7d01c50c8d6
Chowdhury, Debojyoti
3aacc450-b62e-4ee3-8d42-47063cc41d3a
Gupta, Debayan
ca5617ab-77f4-458b-8d88-6c8c40fc7ab7
Haldar, Shubhasis
af1659e6-d326-4ea0-ad49-ea31440def29
Priyadarshi, Shreyansh
143bb9dc-4cf5-431b-8f32-fcfe5ac977cb
Mazumder, Camellia
8623e346-1d54-4a1d-8ead-f59cb1caa55e
Neekhra, Bhavesh
6392b211-7547-4888-8abd-abe59fbafd84
Biswas, Sayan
71540445-0441-458c-91c9-b7d01c50c8d6
Chowdhury, Debojyoti
3aacc450-b62e-4ee3-8d42-47063cc41d3a
Gupta, Debayan
ca5617ab-77f4-458b-8d88-6c8c40fc7ab7
Haldar, Shubhasis
af1659e6-d326-4ea0-ad49-ea31440def29
Priyadarshi, Shreyansh, Mazumder, Camellia, Neekhra, Bhavesh, Biswas, Sayan, Chowdhury, Debojyoti, Gupta, Debayan and Haldar, Shubhasis
(2025)
OncoMark: a high-throughput neural multi-task learning framework for comprehensive cancer hallmark quantification.
Communications Biology, 8.
(doi:10.1038/s42003-025-08727-z).
Abstract
Quantifying the biological processes that drive cancer progression remains a key challenge in oncology. Although the hallmarks of cancer provide a foundational framework for understanding tumor behavior, existing diagnostic tools rarely measure these hallmarks directly. Here we present a neural multi-task learning-based framework that estimates hallmark activity using gene expression data from tumor biopsies. The model was trained on transcriptomic profiles from 941 tumors spanning 14 tissue types and tested on five independent datasets. It predicts the activity of ten cancer hallmarks simultaneously and with high accuracy. Additional validation on large-scale datasets including normal and cancer samples confirmed its sensitivity and specificity. Predicted hallmark activity was associated with clinical staging, suggesting biological relevance. A web-based tool was developed to facilitate integration into research and clinical workflows. This approach enables efficient analysis of transcriptomic data to inform understanding of tumor biology and support individualized treatment strategies.
Text
s42003-025-08727-z
- Version of Record
More information
e-pub ahead of print date: 7 October 2025
Identifiers
Local EPrints ID: 511272
URI: http://eprints.soton.ac.uk/id/eprint/511272
ISSN: 2399-3642
PURE UUID: d96fc877-29e5-434d-b373-0f198c75141e
Catalogue record
Date deposited: 11 May 2026 16:40
Last modified: 12 May 2026 02:19
Export record
Altmetrics
Contributors
Author:
Shreyansh Priyadarshi
Author:
Camellia Mazumder
Author:
Bhavesh Neekhra
Author:
Sayan Biswas
Author:
Debojyoti Chowdhury
Author:
Debayan Gupta
Author:
Shubhasis Haldar
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics