Acid-triggered rattan ball-like β-glucan carrier embedding doxorubicin to synergistically alleviate precancerous lesions of gastric cancer via p53 and PI3K pathways

The early intervention of precancerous lesions of gastric cancer (PLGC) is crucial for improving the survival of patients with gastric cancer. Traditional pharmaceuticals for the treatment of PLGC are limited by side effects, thus developing innovative drug carrier that are more efficient but without the undesirable side effects is required. Here, we proposed an acid-triggered mushroom-derived β-glucan carrier embedding doxorubicin (DOX) to circumvent drug cytotoxicity and synergistically alleviate PLGC based on the controlled conformational transformation. The triple helix β-glucan extracted from Dictyophora rubrovolvata (DRP) loaded doxorubicin driven by pH and DMSO regulation, forming two rattan ball-like nanoparticles (DRP-DOX(pH) and DRP-DOX(DMSO)) via its collapse and recombination of triple-helix conformation. The findings revealed that DRP-DOXs achieved acid-triggerable and sustained drug delivery with an average particle size of 500 nm and 550 nm. In vitro evaluation of GES-1 cells showed DRP-DOXs reduced reactive oxygen species (ROS) production and altered mitochondrial membrane potential. Compared to DRP-DOX(DMSO) and DRP, DRP-DOX(pH) could more effectively downregulate cellular oxidative stress and inflammation to eventually alleviate PLGC, by regulating the p53 and PI3K pathways to mitigate gastric mucosa damage. Consequently, the nature-derived β-glucan delivery nanovesicle holds great promising applications in reducing drug toxicity and suppressing the development of PLGC.