Background and objectives: This study aimed to investigate how the organic cation transporter 2 nucleotide polymorphism at site 808 (G → T) affects metformin pharmacokinetics and its long-term anti-diabetic effect.
Methods: A total of 220 newly diagnosed type 2 diabetes patients taking oral metformin were recruited, genotyped and then divided into three groups by SLC22A2 genotypes (G/G, G/T, T/T). Nine patients in the GG genotype group, five patients in the GT genotype group and four patients in the TT genotype group were randomly selected for the metformin pharmacokinetic study. A randomized cohort study with 1-year follow-up was performed to clarify the metformin pharmacodynamics.
Results: After 1 year, the decrease in glycosylated hemoglobin (HbA1c) levels in subjects with the heterozygous variant genotype (GT) was significantly greater than in those with the wild-type homozygote (-2.2 % in GT vs. -1.1 % in GG, P < 0.05) after adjustment for baseline HbA1c levels, exercise and diet in each group. There were also differences in the pharmacokinetic parameters (95 % confidence interval) of metformin between these two groups [area under the concentration-time curve (AUC)0-∞ 19.7 (15.7-23.8) vs. 14.3 (11.7-16.9) μg h/L; renal clearance (CLr) 16.8 (8.5-25.0) vs. 34.1 (24.9-43.2) L/h; tubular secretion clearance (CLt) 8.1 (2.2-18.1) vs. 22.7 (15.5-29.8) L/h; all P < 0.05]. Multivariate analysis further revealed that the presence of T alleles and gender were independent influencing factors of urine excretion of metformin (P < 0.05).
Conclusion: As well as gender, the glucose-lowering efficiency of metformin can be enhanced by SLC22A2 808G > T variants through the delay of its transportation and CLr in Chinese type 2 diabetes populations.