Cytochrome P450 2C9 (CYP2C9) c.449G>A (*8) is common in African Americans and is associated with decreased warfarin clearance. We examined the effect of promoter region variants inherited with 449G>A on warfarin clearance, dose requirements, and CYP2C9 expression. In an African American cohort, 449G>A was in linkage disequilibrium with c.-1766T>C (r(2) = 0.89) and c.-1188T>C (D' = 1). The combination of the -1766C and 449A alleles with the -1188CC genotype was associated with lower S-warfarin clearance (0.86 ± 0.22 vs. 1.66 ± 0.75 ml/min/m(2); n = 48; P < 0.01) and dose requirements [33 (25-49) vs. 43 (35-56) mg/week; n = 243; P = 0.03] compared with other genotypes. In liver tissue, alleles with the -1766C/-1188C/449A haplotype showed two-fold decreased mRNA expression compared with reference alleles. In a promoter reporter assay, the -1766C/-1188C haplotype decreased CYP2C9 promoter activity. These data suggest that promoter region polymorphisms inherited with 449G>A decrease CYP2C9 expression and contribute to CYP2C9*8 effects on warfarin clearance and dose requirements.