PO.CL01.20 · 临床研究
Cross-cohort robust detection of colorectal cancer using a minimal junction-based platelet RNA panel
作者与单位
摘要 Abstract
Background:
Tumor-educated platelets (TEPs) incorporate cancer-derived RNA signals and represent a promising minimally invasive platform for early cancer detection. However, gene-level TEP signatures such as the widely used 921-gene panel often exhibit reduced performance across heterogeneous cohorts. Because platelet RNA predominantly reflects regulated splicing events rather than transcriptional abundance, exon-exon junction features may provide higher biological specificity and improved stability against hematologic variability. In this study, we aimed to identify representative exon-exon junction alterations in platelet RNA that distinguish CRC from healthy controls.
Methods:
We analyzed public platelet RNA-seq data (132 CRC and 21 healthy samples; NIH BioProject PRJNA737596) and a prospective clinical cohort (44 CRC and 96 healthy samples), both of which contained a substantial proportion of early-stage CRC (stage I-II, ~52%). Junction-level read counts were quantified, normalized, and filtered based on differential expression, reproducibility, and independence from hematologic indices. A 10-junction panel was selected using logistic regression modeling, and support vector machine (SVM) classifiers were trained and validated using stratified, independent subsets. Performance of the 10-junction model was compared with an identically preprocessed model based on the previously reported 921-gene TEP panel. Functional annotation of the 10 junctions was conducted to assess mechanistic relevance.
Results:
The 10-junction panel demonstrated consistently strong diagnostic performance across cohorts. In the public validation set (n=68), the model achieved a sensitivity of 89.4%, specificity of 85.7%, and an AUC of 0.912. In the clinical validation set (n=75), sensitivity was 87.5%, specificity 93.3%, and AUC 0.959. Detection of early-stage CRC was robust in both datasets (AUC 0.903 and 0.956 in the public and clinical cohorts, respectively). Notably, the junction-based model outperformed the 921-gene panel in the clinical cohort (AUC 0.959 vs. 0.895). Functional enrichment analysis indicated involvement of vesicle trafficking, autophagy, and platelet-immune signaling pathways, consistent with known mechanisms of platelet reprogramming in cancer.
Conclusions:
A compact junction-based TEP RNA panel enables accurate detection of CRC, including early-stage disease, and demonstrates superior cross-cohort robustness compared with conventional gene-level approaches. Its small feature set, strong biological coherence, and consistent performance highlight its potential as a scalable and cost-efficient liquid biopsy for CRC screening. Multi-institutional prospective validation is warranted.
利益披露 Disclosure
J. Choi, None..
Y. Kim, None..
S. Park, None..
D. Park, None..
E. Chai, None..
H. Kim, None..
S. Heo, None..
S. Jeong, None..
T. Ahn, None..
R. Shin, None.