Variation of genes encoding KAT1, AADAT and IDO1 as a potential risk of depression development

Abstract

Numerous data suggests that the disorders of tryptophan catabolites (TRYCATs) pathway, including a decreased level of tryptophan or evaluated concentration of harmful TRYCATs −kynurenine, quinolinic acid, 3-hydroxyanthranilic acid, 3-hydroxytryptophan − may cause the occurrence of DD symptoms. In this work, we assessed the relationship between single-nucleotide polymorphisms (SNPs) of KAT1, KAT2 and IDO1 gene encoding, and the risk of depression development. Our study was performed on the DNA isolated from peripheral blood of 281 depressed patients and 236 controls. We genotyped, by using TaqMan probes, four polymorphisms: c.*456G > A of KAT1 (rs10988134), c.975-7T > C of AADAT (rs1480544), c.-1849C > A (rs3824259) and c.-1493G > C(rs10089084)of IDO1. We found that only the A/A genotype of c.*456G > A − KAT1 (rs10988134) increased the risk of depression occurrence. Interestingly, when we stratified the study group according to gender, this relationship was present only in male population. However, a gene–gene analysis revealed a link between the T/T-C/C genotype of c.975-7T > C − AADAT (rs1480544)or c.-1493G > C − IDO1 (rs10089084) and C/C-C/A genotype of c.975-7T > C − AADAT (rs1480544)and c. −1849C > A − IDO1 (rs3824259) and the disease. Moreover, we found, that the c.975-7T > C − AADAT and c. *456G > A KAT1 (rs10988134) polymorphisms may modulate the effectiveness of selective serotonin reuptake inhibitors therapy. Concluding, our results confirm the hypothesis formulated in our recently published article that the SNPs of genes involved in TRYCATs pathway may modulate the risk of depression. This provides some further evidence that the pathway plays the crucial role in development of the disease.