Our previous work indicated that the renal dopamine D2 receptor (D2R) has a significant role in regulating renal inflammation and injury, as well as in blood pressure control. In mice, D2R has protective effects in the kidney by limiting the inflammatory and fibrotic reaction; impaired D2R function results in renal inflammation and damage. Some common single nucleotide polymorphisms (SNPs; rs 6276 and 6277) in the human DRD2 gene are associated with decreased D 2 R expression and function and high blood pressure. To determine the effects of the presence of SNPs in the response to the nephrotoxic aristolochic acid (AA, 5μg/ml, 24 h), we studied immortalized human renal proximal tubule cells isolated from normal tissue of nephrectomies and genotyped for DRD2 SNPs and DRD2 wild-type (WT). We also determined whether this response is sex dependent. D2R protein was higher in male than in female WT (135±5 vs 100±4%; n=3/group; P<0.04) and lower in males with SNPs (43±2%, P<0.05) and females with SNPs (23±2%,P<0.05), compared with their respective WT counterparts. In both male groups (WT and SNPs), AA increased D2R protein by 80-100% but had no effect in WT females and increased ~50% in females with SNPs. The TNFα mRNA was higher in males with WT and SNPs which was increased by AA 9-10-fold in WT males and females but only 2-3-fold in those with SNPs. The TGFβ mRNA was similar in WT males and females and increased to the same extent in both groups with SNPs and was not affected by AA in all groups. Col1a1 mRNA was higher (30%) in WT males and females than those with SNPs; AA decreased Col1a1 mRNA in all groups. FN1 mRNA was higher (30-40%) in males and females with SNPs than WT; AA increased FN1 mRNA only in males and females with SNPs. The mRNA expression of the cell proliferation marker Ki-67 was higher in WT females than WT males (1.5-2-fold) and higher with SNPs than WT in both groups; AA increased Ki-67 mRNA in both groups and to a greater extent in males than in females. Taken together our data indicate that the presence of DRD2 SNPs affects the baseline expression of inflammatory and fibrotic factors and the response to AA is dependent on both sex and the presence of DRD2 SNPs. These data may have potential clinical translation since rs6276/6277 is commonly expressed (42%/23%) in the human population.