Bacteria-tumor symbiosis destructible novel nanocatalysis drug delivery systems for effective tumor therapy

Colorectal cancer (CRC) is a significant threat to human health. The dynamic equilibrium between probiotics and pathogenic bacteria within the gut microbiota is crucial in mitigating the risk of CRC. An overgrowth of harmful microorganisms in the gastrointestinal tract can result in an excessive accumulation of bacterial toxins and carcinogenic metabolites, thereby disrupting the delicate balance of the microbiota. This disruption may lead to alterations in microbial composition, impairment of mucosal barrier function, potential promotion of abnormal cell proliferation, and ultimately contribute to the progression of CRC. Recently, research has indicated that intestinal presence of Fusobacterium nucleatum (Fn) significantly influences the onset, progression, and metastasis of CRC. Consequently, disrupting the interaction between CRC cells and Fn presents a promising strategy against CRC. Nanomaterials have been extensively utilized in cancer therapy and bacterial infection control, demonstrating substantial potential in treating bacteria-associated tumors. This review begins by elucidating the mechanisms of gut microbiota and the occurrence and progression of CRC, with a particular emphasis on clarifying the intricate relationship between Fn and CRC. Subsequently, we highlight strategies that utilize nanomaterials to disrupt the association between Fn and CRC. Overall, this review offers valuable insight and guidance for leveraging nanomaterials in CRC therapy.