Multi-omics characterization of RNA modification enzymes identifies NAT10 as a functionally validated prognostic biomarker in hepatocellular carcinoma
Qianqian Zhan, Huihui Sun, Xiangting Wang, Xiaolin Liang

TL;DR
This study explores RNA modification enzymes in cancer, identifying NAT10 as a key biomarker for predicting outcomes in liver cancer.
Contribution
The study introduces a 12-RME diagnostic signature and a 6-gene prognostic model for cancer, with NAT10 validated as a functional biomarker in hepatocellular carcinoma.
Findings
RMEs are broadly upregulated in cancers and linked to copy number variations.
NAT10 knockdown reduces HCC cell proliferation, validated by EdU and IHC assays.
A 6-gene model shows strong prognostic power and treatment response predictions.
Abstract
RNA modification enzymes (RMEs) are key post-transcriptional regulators that impact RNA stability, translation, and splicing. Dysregulation of RMEs is closely associated with tumor initiation and progression. However, their global regulatory patterns and clinical relevance across cancer types remain incompletely characterized. We conducted an integrative multi-omics analysis of RME expression, copy number variation (CNV), and clinical outcomes across multiple cancers. Machine learning algorithms were employed to identify tumor-discriminating RME signatures. Single-cell RNA sequencing (scRNA-seq) characterized tumor microenvironmental heterogeneity. A LASSO-derived prognostic model was established and validated in independent cohorts. Drug sensitivity prediction and supportive functional assays (EdU assays, qRT-PCR, immunohistochemistry) were performed for representative RMEs. RMEs…
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Taxonomy
TopicsRNA modifications and cancer · Metalloenzymes and iron-sulfur proteins · RNA regulation and disease
