Radioprotective potential of probiotics against gastrointestinal and neuronal toxicity: a preclinical study

Purpose Radiotherapy is a critical component of cancer treatment, along with surgery and chemotherapy. Approximately, 90% of cancer patients undergoing pelvic radiotherapy show gastrointestinal (GI) toxicity, including bloody diarrhea, and gastritis, most of which are associated with gut dysbiosis....

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Bibliographic Details
Published in:Clinical & translational oncology 2023-11, Vol.25 (11), p.3165-3173
Main Authors: Venkidesh, Babu Santhi, Shankar, Saligrama R, Narasimhamurthy, Rekha Koravadi, Rao, Satish Bola Sadashiva, Mumbrekar, Kamalesh Dattaram
Format: Article
Language:English
Subjects:
Medicine
Medicine & Public Health
Oncology
Research Article
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Summary:Purpose Radiotherapy is a critical component of cancer treatment, along with surgery and chemotherapy. Approximately, 90% of cancer patients undergoing pelvic radiotherapy show gastrointestinal (GI) toxicity, including bloody diarrhea, and gastritis, most of which are associated with gut dysbiosis. In addition to the direct effect of radiation on the brain, pelvic irradiation can alter the gut microbiome, leading to inflammation and breakdown of the gut–blood barrier. This allows toxins and bacteria to enter the bloodstream and reach the brain. Probiotics have been proven to prevent GI toxicity by producing short-chain fatty acids and exopolysaccharides beneficial for protecting mucosal integrity and oxidative stress reduction in the intestine and also shown to be beneficial in brain health. Microbiota plays a significant role in maintaining gut and brain health, so it is important to study whether bacterial supplementation will help in maintaining the gut and brain structure after radiation exposure. Methods In the present study, male C57BL/6 mice were divided into control, radiation, probiotics, and probiotics + radiation groups. On the 7 th day, animals in the radiation and probiotics + radiation groups received a single dose of 4 Gy to  whole-body. Posttreatment, mice were sacrificed, and the intestine and brain tissues were excised for histological analysis to assess GI and neuronal damage. Results Radiation-induced damage to the villi height and mucosal thickness was mitigated by the probiotic treatment significantly ( p  
ISSN:1699-3055
1699-048X
1699-3055
DOI:10.1007/s12094-023-03184-8