β-Cryptoxanthin Confers Radioprotection against Intestinal Injury via NRF2-Mediated Antioxidant Response and Gut Microbiota Reprogramming
Manman Zhang, Yingshuang Liu, Wenbo Ma, Jinhan Wang, Ningning He, Huijuan Song, Yeqing Gu, Mengmeng Yang, Xinran Lu, Jingxing Sun, Chang Xu, Liqing Du, Yayi Yuan, Yan Wang, Kaihua Ji, Qiang Liu

TL;DR
β-cryptoxanthin protects the intestines from radiation damage by boosting antioxidants and improving gut bacteria.
Contribution
This study reveals β-cryptoxanthin's dual mechanism of radioprotection via NRF2 activation and gut microbiota reprogramming.
Findings
β-cryptoxanthin reduces intestinal injury by enhancing NRF2-mediated antioxidant response.
It restores beneficial gut bacteria and protective metabolites like short-chain fatty acids.
The AMPK-GSK3β signaling axis is crucial for β-cryptoxanthin's radioprotective effects.
Abstract
Radiation-induced intestinal injury, a common complication of abdominal/pelvic radiotherapy for cancer patients and accidental irradiation, presents a major clinical challenge due to the lack of effective treatments. This study investigates the radioprotective potential of β-cryptoxanthin, a provitamin A carotenoid known for its antioxidant properties. In vivo, oral β-cryptoxanthin administration alleviated radiation-induced intestinal injury by enhancing the NRF2-mediated antioxidant response, which was confirmed by its lack of efficacy in Nrf2-/- mice. Additionally, it restored radiation-impaired microbiota by increasing beneficial bacterial populations and protective metabolites like short-chain fatty acids (SCFAs), thereby re-establishing a radioprotective gut ecosystem. At the cellular level, β-cryptoxanthin pretreatment significantly improved cell viability and proliferation while…
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Taxonomy
TopicsGenomics, phytochemicals, and oxidative stress · Effects of Radiation Exposure · Antioxidant Activity and Oxidative Stress
