Musashiexpression in intestinal stem cells attenuates radiation-induced decline in intestinal homeostasis and survival inDrosophila

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Abstract

Exposure to genotoxic stress by environmental agents or treatments, such as radiation therapy, can diminish health span and accelerate aging. We have developed a Drosophila melanogaster model to study the molecular effects of radiation-induced damage and repair. Utilizing a quantitative intestinal permeability assay, we performed an unbiased GWAS screen (using ∼150 strains from the DGRP reference panel) to search for natural genetic variants that regulate radiation-induced gut permeability. From this screen, we identified the RNA binding protein, Musashi (msi).Msi overexpression promoted intestinal stem cell proliferation, which increased survival after irradiation and rescued radiation-induced gut permeability. We identified that a novel role of Msi in ISC proliferation a novel role for Msi in enhancing ISC function following radiation-induced gut damage, which identifies Msi as a potential therapeutic target.

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last seen: 2026-05-19T01:45:01.086888+00:00