A novel tsRNA signature -tRF-58:76-Tyr-GTA-2-M3 as potential biomarker and therapeutic target for duodenal atresia.

Abstract

Duodenal atresia (DA) is a common neonatal digestive tract obstruction, with unclear prenatal diagnostic specificity and optimal intervention timing. tRNA-derived small RNAs (tsRNAs), stable and enriched in blood, are promising biomarkers for disease diagnosis. Therefore, identifying tsRNA biomarkers, elucidating DA pathogenesis, and exploring potential intrauterine interventions is urgently needed. This study conducts tsRNA profiling via sequencing on plasma samples from pregnant women carrying fetuses with DA and matched healthy controls. Validation was performed in 147 pregnant women, including cohorts with fetal gastrointestinal atresia, normal pregnancies, and post-delivery cases. Functional analyses in cellular models and Adriamycin rat models with DA explored the role of key tsRNAs in DA pathogenesis and intrauterine therapy. It is found that tsRNAs, including tRF-61:78-chrM. Leu-TAA, tRF-60:77-Ile-AAT-1-M4, tRF-57:76-Arg-ACG-1-M2, and tRF-58:76-Tyr-GTA-2-M3, were significantly downregulated in DA cases. tRF-58:76-Tyr-GTA-2-M3 is further implicated in DA development, with knockdown inducing excessive apoptosis via upregulation of SUFU and suppression of GLI1, a hedgehog pathway transcription factor. Intraperitoneal microinjection of tRF-58:76-Tyr-GTA-2-M3 agomir in DA rat models reduce apoptosis and mitigates DA formation by modulating SUFU and GLI1 expression. Taken together, this study identifies novel tsRNA biomarkers for DA, with tRF-58:76-Tyr-GTA-2-M3 playing a pivotal role in its pathogenesis. These findings offer insights into DA mechanisms and suggest potential therapeutic targets, advancing strategies for early diagnosis and intervention.