A polymorphism of matrix Gla protein gene is associated with kidney stones

Purpose: Matrix Gla protein, a potent calcification inhibitor in arterial vessels, is also expressed in the kidney and is up-regulated following the administration of ethylene glycol, a precursor of oxalate. Considering the analogous characteristics between arterial calcification and kidney stones, we identified variants of the human matrix Gla protein gene and investigated whether there is an association between MGP genetic polymorphisms and kidney stones. Materials and Methods: We studied single nucleotide polymorphisms in matrix Gla protein in 122 kidney stone cases and 125 controls. We resequenced the human genomic MGP gene, including the 1,000 lip promoter 5'-untranslated region, 4 exons and 3'-untranslated regions, and we performed systematic genetic analysis. A single nucleotide polymorphism was genotyped using a fluorescent 5'endonuclease assay and its association with kidney stones was analyzed. Results: We observed 19 polymorphisms. A single nucleotide polymorphism was associated with kidney stones (OR 0.51, 95% CI 0.30-0.87; p = 0.012). The G allele carrier had a 2-fold decreased kidney stone risk compared with A allele carriers in single nucleotide polymorphism 11 (OR 0.55, 95% CI 0.31-1.00, p = 0.047). We found no association between the polymorphism and kidney stone clinical characteristics. Conclusions: Our findings show that an MGP gene polymorphism is associated with kidney stones and influences genetic susceptibility to kidney stones. In the future functional assays of the polymorphism should permit better understanding of the role of matrix Gla protein genetic variants and kidney stones.