Abstract
Astragalus polysaccharide (APS) is the crucial active ingredient of Astragalus membranaceus, which has antioxidant, immunomodulatory and anti-inflammatory properties. However, the therapeutic effects and biological mechanisms of APS on chemotherapeutic intestinal mucositis (CIM) have not been clarified yet. Here, the protective mechanism and functional components of APS against CIM was investigated in both Drosophila melanogaster (fruit fly) and mice models. Administration of APS could remarkably attenuate the overall physiological impairments caused by CPT-11 in flies, including increased the survival rate, improved motility, restored the size of ovary and reproduction. APS supplementation could significantly alleviate CPT-11-induced intestinal damage, which involved in restoration of intestinal length, reduction of crop size and excretion, improvement of intestinal homeostatic imbalance, and restoration of intestinal shortened villi. Furthermore, the integration of transcriptomics and microbiomics demonstrated that APS exerted its protective effect mainly by mitigating oxidative stress associated with FoxO signaling, over-activated innate immunity and dysbiosis of intestinal flora. Subsequently, three molecular weight components (APS-I, APS-II and APS-III) were extracted from APS. Among the studied substances, APS-III as the lowest molecular weight demonstrated the highest efficacy in reducing intestinal mucositis compared to both APS-I and APS-II. Collectively, these results support that APS is intended to be constructed as an effective medication for addressing intestinal diseases.
