Authors
Shizheng Qiu, Ming Zhao, Xin Chen, Zhishuai Zhang, Huanyu You, Xu Sun, Jirui Guo, Haozheng Liang, Yu Guo, Lu Chen, Jun Lv, Dianjianyi Sun, Ling Yang, Yiping Chen, Huaidong Du, Zhengming Chen, Liming Li, Yang Hu, Guiyou Liu, Canqing Yu, Yadong Wang
Published in
Nature communications. Jul 13, 2026. Epub Jul 13, 2026.
Abstract
Plasma proteomics can provide a dynamic molecular readout of human health, but models that learn generalizable protein-expression patterns in population cohorts remain limited. Here we show that ProLM, a BERT-based plasma proteomics model pretrained on 15,499 relatively healthy UK Biobank participants, captures baseline protein-expression relationships and supports prediction of 16 common chronic diseases. After disease-specific fine-tuning, the ProLM-derived proteomic risk score outperformed the Age+Sex model for all 16 diseases, the cardiovascular disease (ASCVD) risk equation for 14 diseases and a 35-variable clinical PANEL score for 11 diseases. Model interpretation highlighted proteins including GDF15 whose expression changed more than 15 years before clinical diagnosis, and key findings were externally evaluated in the China Kadoorie Biobank. These results support plasma proteomics pretrained models as tools for early chronic-disease risk stratification, while prospective validation is needed before clinical implementation.
PMID:
42443214
Bibliographic data and abstract were imported from PubMed on 14 Jul 2026.
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