Transfer RNA-derived fragment tRF-36 modulates varicose vein progression via human vascular smooth muscle cell Notch signaling
Guojun Chen, Chong Yu, Yu Shi, Danna Cai, Bin Zhou

TL;DR
A specific RNA fragment called tRF-36 contributes to varicose veins by affecting Notch signaling in vascular smooth muscle cells.
Contribution
This study identifies tRF-36 as a novel modulator of varicose vein progression through the Notch signaling pathway in human vascular smooth muscle cells.
Findings
tRF-36 levels and Notch 1–3 are elevated in varicose veins compared to normal tissues.
tRF-36 knockdown reduces Notch signaling and increases smooth muscle cell markers.
Inhibiting the Notch pathway reverses the effects of tRF-36 mimic in vascular smooth muscle cells.
Abstract
Varicose veins are a prevalent vascular disorder affecting millions of individuals worldwide, and we previously reported transfer RNA-derived fragment (tRF) involvement in varicose veins. This study investigated the role of tRF-36 in varicose vein pathogenesis. Varicose veins and adjacent normal vascular tissues were collected to measure the expression of Notch 1, 2, and 3 and the smooth muscle cell (SMC) markers SMA-α, and SM22α. Human vascular SMCs (HVSMCs) were transfected to alter tRF-36 levels and examine the effects on Notch 1–3, tRF-36, SMA-α, and SM22α expression. Notch 1–3 and tRF-36 levels were higher in varicose veins than in adjacent normal vascular tissues. tRF-36 knockdown decreased HVSMC viability, downregulated Notch 1, 2, and 3 expression, and upregulated SMC markers (SMA-α and SM22α) compared with control HVSMCs. When the Notch pathway was inhibited, the expression of…
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Taxonomy
TopicsDiagnosis and Treatment of Venous Diseases · RNA regulation and disease
