RESUMO
Purpose To investigate the distribution of polymorphisms of quinone oxidoreductase 1 (NQO1) C609T gene in breast cancer patients, and to analyze the relationship with breast cancer molecular subtype. Methods Genotyping of C609T rs1800566 lo-cus of NQO1 gene in peripheral blood of 248 cases of female breast cancer were detected using high-throughput TaqMan MGB real-time fluorescence quantitative PCR technology, while the detection of ER, PR, HER-2 and Ki-67 in cancerous tissues were used with immu-nohistochemical staining and FISH gene amplification. Results Among 248 cases of breast cancer patients, CC genotype accounted for 27. 42% (68/248), CT genotype accounted for 49. 60% (123/248), TT genotype accounted for 22. 98% (57/248), which con-sistent with Hardy-Weinberg equilibrium law genetic (P>0. 05). 5 cases of HER-2 (++) who did not undergo FISH testing were re-moved, all the rest were done with FISH detection. Luminal A type accounted for 15. 2% (37/243), Luminal B type accounted for 51. 4% (125/243), HER-2 overexpression type accounted for 19. 8% (48/243), basal cell type accounted for 13. 6% (33/243). Compared with patients carrying the CC genotype, ER and PR positive rates in breast cancer patients carrying CT and TT genotype was significantly higher (P0. 05). There was no statistically difference on distribution of C609T polymorphism of NQO1 gene among different molecular sub-types of breast cancer (P>0. 05). Conclusions Here is no relationship between C609T polymorphism of NQO1 gene and breast cancer molecular subtype, miss rate of NQO1 ( CT+TT) in basal cell carcinoma is lower, and its gene polymorphism may provide the reasonable explanation to the heterogeneity of breast cancer molecular subtype.