Objective: To investigate the mechanism of DPYD (rs3918290, rs55886062 and rs67376798) gene polymorphisms lead to changes in the function of DPYD enzymes, leading to the toxic reaction of patients with fluorouracil chemotherapy. Methods: A total of 100 patients with fluorouracil chemotherapy were enrolled in the oncology department. According to the toxicity of fluorouracil chemotherapy, the drug toxicity group was divided into non-drug toxicity group, mild drug toxicity group and moderate to severe drug toxicity group. The mRNA and protein expression levels of DPYD in the two groups were determined by RT-PCR and Western blot. The distribution of DPYD (rs3918290, rs55886062 and rs67376798) sites in the genotype frequencies of the three groups was detected by in situ hybridization. Three sets of clinical sample data were analyzed by analysis of variance and chi-square test. Results: Compared with the non-drug-toxic group and the mild drug-toxic group, the mRNA and protein expression levels of DPYD in the drug-toxic group of grade 3 to 4 were significantly increased. The frequencies of the genotypes of DPYD (rs3918290, rs55886062 and rs67376798) were two. There was a significant difference in the distribution among the patients (P<0.05). Conclusion: Overexpression of DPYD mRNA is closely related to the occurrence of fluorouracil drug toxicity. The polymorphisms of DPYD (rs3918290, rs55886062 and rs67376798) may be significantly associated with fluorouracil drug toxicity. The mutation of DPYD (rs3918290, rs55886062 and rs67376798) leads to the upregulation of DPYD gene and promotes the toxicity of fluorouracil.