Tumor Suppression across the Human miRNome Associates with Guanine-Rich Precursor Terminal Loops

MicroRNAs (miRNAs) play essential regulatory roles in controlling cell growth, proliferation, and differentiation in cancer. While functional studies have identified numerous oncogenic (oncomiRs) and tumor suppressor (TS) miRNAs, the structural features that differentiate these groups remain poorly understood. Here, we performed a comprehensive sequence analysis of 955 human pre-miRNA terminal loops (TLs), focusing on enrichment of single guanine (G) and GG dinucleotides. A quantitative G enrichment score was used to define 42 G-rich TL miRNAs and 17 G-free TL miRNAs as controls. Functional roles of these miRNAs were curated from 757 publications. The results show that G-rich TL miRNAs consistently display higher TS/oncomiR ratios than G-free TL miRNAs across most cancer types, with a significant enrichment observed in lung cancer (p = 0.023). Focusing on miR-139, a TS miRNA with a G-rich TL, integrative analysis of publicly available transcriptomic and proteomic data revealed its consistent downregulation across all stages of lung adenocarcinoma (LUAD), accompanied by reciprocal overexpression of its validated oncogenic target, CCNB1. These findings highlight the biological relevance of G-rich TL structures in miRNA-mediated tumor suppression in lung cancer, suggesting their consideration in future therapeutic strategies aimed at restoring vulnerable TS miRNAs.