Glutathione S-transferase omega genes in Alzheimer and Parkinson disease risk, age-at-diagnosis and brain gene expression: an association study with mechanistic implications

Author:

Allen Mariet,Zou Fanggeng,Chai High Seng,Younkin Curtis S,Miles Richard,Nair Asha A,Crook Julia E,Pankratz V Shane,Carrasquillo Minerva M,Rowley Christopher N,Nguyen Thuy,Ma Li,Malphrus Kimberly G,Bisceglio Gina,Ortolaza Alexandra I,Palusak Ryan,Middha Sumit,Maharjan Sooraj,Georgescu Constantin,Schultz Debra,Rakhshan Fariborz,Kolbert Christopher P,Jen Jin,Sando Sigrid B,Aasly Jan O,Barcikowska Maria,Uitti Ryan J,Wszolek Zbigniew K,Ross Owen A,Petersen Ronald C,Graff-Radford Neill R,Dickson Dennis W,Younkin Steven G,Ertekin-Taner Nilüfer

Abstract

Abstract Background Glutathione S-transferase omega-1 and 2 genes (GSTO1, GSTO2), residing within an Alzheimer and Parkinson disease (AD and PD) linkage region, have diverse functions including mitigation of oxidative stress and may underlie the pathophysiology of both diseases. GSTO polymorphisms were previously reported to associate with risk and age-at-onset of these diseases, although inconsistent follow-up study designs make interpretation of results difficult. We assessed two previously reported SNPs, GSTO1 rs4925 and GSTO2 rs156697, in AD (3,493 ADs vs. 4,617 controls) and PD (678 PDs vs. 712 controls) for association with disease risk (case-controls), age-at-diagnosis (cases) and brain gene expression levels (autopsied subjects). Results We found that rs156697 minor allele associates with significantly increased risk (odds ratio = 1.14, p = 0.038) in the older ADs with age-at-diagnosis > 80 years. The minor allele of GSTO1 rs4925 associates with decreased risk in familial PD (odds ratio = 0.78, p = 0.034). There was no other association with disease risk or age-at-diagnosis. The minor alleles of both GSTO SNPs associate with lower brain levels of GSTO2 (p = 4.7 × 10-11-1.9 × 10-27), but not GSTO1. Pathway analysis of significant genes in our brain expression GWAS, identified significant enrichment for glutathione metabolism genes (p = 0.003). Conclusion These results suggest that GSTO locus variants may lower brain GSTO2 levels and consequently confer AD risk in older age. Other glutathione metabolism genes should be assessed for their effects on AD and other chronic, neurologic diseases.

Publisher

Springer Science and Business Media LLC

Subject

Cellular and Molecular Neuroscience,Neurology (clinical),Molecular Biology

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