DNA base excision repair gene polymorphisms modulate human cognitive performance and decline during normal life span

Abstract

To test the hypothesis that single nucleotide polymorphisms (SNPs) in DNA repair genes are associated with cognitive performance during normal aging, the relationship between SNPs in selected exons in DNA base excision repair (BER) genes and cognitive performance was examined in 712 healthy Norwegian individuals aged 20-75 years. SNPs examined included PolB(Pro242Arg), hOGG1(Ser326Cys), MutYH (Met22Val), MutYH(His324Gln), APE1(Gln51His), APE1(Glu148Asp), XRCC1(Lys298Asn), XRCC1(Arg7Leu), NEIL1(Asp252Asn), and NEIL2(Arg257Leu). XRCC1(Arg7Leu) and PolB(Pro242Arg) were characterized by single nucleotide variations (≤0.1% homozygote SNPs). hOGG1(Ser326Cys) (Ser/Cys 40.8%/Cys/Cys 5.7%), MutYH(His324Gln) (His/Gln37%/Gln/Gln 6.0%) and APE1(Glu148Asp) (Glu/Asp 51.3%/Asp/Asp 23.0%) were characterized by higher SNP frequencies. MutYH(Met22Val), APE1(Gln51His) and NEIL2(Arg257Leu) occurred at intermediate SNP frequencies of 11.5, 7.6 and 5.3%, respectively. Interestingly, hOGG1(Ser326Cys) and APE1(Gln51His) had genotype by age interactions with general cognitive function, reasoning, control and speed of processing in cross-sectional analysis and a significant effect on longitudinal decline. Dispersed association effects involving MutYH(His324Gln), MutYH(Met22Val), PolB(Pro242Arg) and NEIL2(Arg257Leu) were also detected when APOE or CHRNA4, were included in the statistical model, a result consistent with proposed involvement of the latter markers in human cognitive decline and/or function. In summary, the results support the notion that polymorphisms in BER genes modulate cognitive performance in healthy elderly individuals.